UNIT 1- ANALOG DIGITAL, IMPAIRMENTS.ppt

William Stallings
Data and Computer
Communications
Chapter 3
Data Transmission

Problems encountered?
Bandwidth, poor signal strength
Routing(DNS)
Network problem
Heat(temperature)
Cross call, cross talk
Data consuming(pblm??)
Connectivity(signal) decreases distance
increases
Traffic
Signal strength varies(analog, digital)
Wireless networks issue(tower)

Terminology (1)
Transmitter
Receiver
Medium
Guided medium
e.g. twisted pair, optical fiber
Unguided medium
e.g. air, water, vacuum

Terminology (2) LINE
CONFIGURATION
Direct link
No intermediate devices
Point-to-point
Direct link
Only 2 devices share link
Multi-point
More than two devices share the link

Terminology (3)
TRANSMISSION MODES
Simplex
One direction
e.g. Television
Half duplex
Either direction, but only one way at a time
e.g. police radio
Full duplex
Both directions at the same time
e.g. telephone

Frequency, Spectrum and
Bandwidth
Time domain concepts
Continuous signal
Various in a smooth way over time
Discrete signal
Maintains a constant level then changes to another constant
level
Periodic signal
Pattern repeated over time
Aperiodic signal
Pattern not repeated over time

Sine Wave
Peak Amplitude (A)
maximum strength of signal
volts
Frequency (f)
Rate of change of signal
Hertz (Hz) or cycles per second
Period = time for one repetition (T)
T = 1/f
Phase ()
Relative position in time

Wavelength
Distance occupied by one cycle
Distance between two points of corresponding
phase in two consecutive cycles

Assuming signal velocity v
 = vT
f = v
c = 3*108 ms-1 (speed of light in free space)

Frequency Domain Concepts
Signal usually made up of many frequencies
Components are sine waves
Can be shown (Fourier analysis) that any signal
is made up of component sine waves
Can plot frequency domain functions

Addition of
Frequency
Components

Spectrum & Bandwidth
Spectrum
range of frequencies contained in signal
Absolute bandwidth
width of spectrum
Effective bandwidth
Often just bandwidth
Narrow band of frequencies containing most of the
energy
DC Component
Component of zero frequency

Data Rate and Bandwidth
Any transmission system has a limited band of
frequencies
This limits the data rate that can be carried

Analog and Digital Data
Transmission
Data
Entities that convey meaning
Signals
Electric or electromagnetic representations of data
Transmission
Communication of data by propagation and
processing of signals

Data
Analog
Continuous values within some interval
e.g. sound, video
Digital
Discrete values
e.g. text, integers

Signals
Means by which data are propagated
Analog
Continuously variable
Various media
wire, fiber optic, space
Speech bandwidth 100Hz to 7kHz
Telephone bandwidth 300Hz to 3400Hz
Video bandwidth 4MHz
Digital
Use two DC components

Data and Signals
Usually use digital signals for digital data and
analog signals for analog data
Can use analog signal to carry digital data
Modem
Can use digital signal to carry analog data
Compact Disc audio

Analog Signals Carrying Analog
and Digital Data

Analog to analog- telephone lines
Digital to analog- MODEM
Analog to digital- codec
Digital to digital- digital transmiter

NIC NETWORK INTERFACE
CARDS
WHY?
CONNECT TO OTHER NETWORKS(DEVICES)
PERFORMANCE
THROUGHPUT= RATE OF DATA TRANSMISSION
BITS BLOCK OF DATA

0,1 0,1 1,  PARITY BIT
CHAR SEND( START BIT)
START BIT? - RECEIVER SHOULD KNOW ABOU
THE DATA.
RECEIVED!!!!
RECEIVER waits for the next char to arrive by
seeing ___? Start bit

Small amount of data to be send-----
asynchronous-> bit
Large blocks of data ----- synchronous-> block
1+1+1+1+0+0+0+0= 0
1+1+1+1+1+0+0+0= 1
Actual , changed
111110001, 110100001(err0r)
TIME

Digital Signals Carrying Analog
and Digital Data

Analog Transmission
Analog signal transmitted without regard to
content
May be analog or digital data
Attenuated over distance
Use amplifiers to boost signal
Also amplifies noise

Digital Transmission
Concerned with content
Integrity endangered by noise, attenuation etc.
Repeaters used
Repeater receives signal
Extracts bit pattern
Retransmits
Attenuation is overcome
Noise is not amplified

Advantages of Digital
Transmission
Digital technology
Low cost LSI/VLSI technology
Data integrity
Longer distances over lower quality lines
Capacity utilization
High bandwidth links economical
High degree of multiplexing easier with digital
techniques
Security & Privacy
Encryption
Integration
Can treat analog and digital data similarly

Transmission Impairments
Signal received may differ from signal
transmitted
Analog - degradation of signal quality
Digital - bit errors
Caused by
Attenuation and attenuation distortion
Delay distortion
Noise

Attenuation
Signal strength falls off with distance
Depends on medium
Received signal strength:
must be enough to be detected
must be sufficiently higher than noise to be received
without error
Attenuation is an increasing function of
frequency

Delay Distortion
Only in guided media
Propagation velocity varies with frequency

Noise (1)
Additional signals inserted between transmitter
and receiver
Thermal
Due to thermal agitation of electrons
Uniformly distributed
White noise
Intermodulation
Signals that are the sum and difference of original
frequencies sharing a medium

Noise (2)
Crosstalk
A signal from one line is picked up by another
Impulse
Irregular pulses or spikes
e.g. External electromagnetic interference
Short duration
High amplitude

Channel Capacity
Data rate
In bits per second
Rate at which data can be communicated
Bandwidth
In cycles per second of Hertz
Constrained by transmitter and medium

Required Reading
Stallings chapter 3

UNIT 1- ANALOG DIGITAL, IMPAIRMENTS.ppt

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