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![Page 1: Asstt. Professor Adeel Akram. Introduction An antenna is an electrical conductor or system of conductors Transmission - radiates electromagnetic energy.](https://reader036.fdocuments.us/reader036/viewer/2022070401/56649f1c5503460f94c3218f/html5/thumbnails/1.jpg)
Asstt. ProfessorAdeel Akram
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![Page 3: Asstt. Professor Adeel Akram. Introduction An antenna is an electrical conductor or system of conductors Transmission - radiates electromagnetic energy.](https://reader036.fdocuments.us/reader036/viewer/2022070401/56649f1c5503460f94c3218f/html5/thumbnails/3.jpg)
IntroductionAn antenna is an electrical conductor or
system of conductorsTransmission - radiates electromagnetic
energy into spaceReception - collects electromagnetic energy
from spaceIn two-way communication, the same antenna
can be used for transmission and reception
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Radiation PatternsRadiation pattern
Graphical representation of radiation properties of an antenna
Depicted as two-dimensional cross sectionBeam width (or half-power beam width)
Measure of directivity of antennaAngle within which power radiated is at least half of that
in most preferred direction
Reception patternReceiving antenna’s equivalent to radiation pattern
Omnidirectional vs. directional antenna
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Types of AntennasIsotropic antenna (idealized)
Radiates power equally in all directionsDipole antennas
Half-wave dipole antenna (or Hertz antenna)Quarter-wave vertical antenna (or Marconi
antenna)Parabolic Reflective Antenna
Used for terrestrial microwave and satellite applications
Larger the diameter, the more tightly directional is the beam
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Antenna GainAntenna gain
Power output, in a particular direction, compared to that produced in any direction by a perfect omnidirectional antenna (isotropic antenna)
Expressed in terms of effective areaRelated to physical size and shape of antenna
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Antenna GainRelationship between antenna gain and
effective area
G = antenna gain Ae = effective area f = carrier frequency c = speed of light (≈ 3 x 108 m/s) = carrier wavelength
2
2
2
44
c
AfAG ee
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Propagation ModesGround-wave propagationSky-wave propagationLine-of-sight propagation
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Ground Wave Propagation
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Ground Wave PropagationFollows contour of the earthCan Propagate considerable distancesFrequencies up to 2 MHzExample
AM radio (Short Wave, Medium Wave, Long Wave)
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Sky Wave Propagation
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Sky Wave PropagationSignal reflected from ionized layer of
atmosphere back down to earthSignal can travel a number of hops, back
and forth between ionosphere and earth’s surface
Reflection effect caused by refractionFrequencies from 2~30 MHzExamples
Amateur radio (HAM Radio)CB radio (Citizen’s Band Radio)
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Line-of-Sight Propagation
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Line-of-Sight PropagationTransmitting and receiving antennas must
be within line of sightSatellite communication – signal above 30 MHz
not reflected by ionosphereGround communication – antennas within
effective line of site due to refractionRefraction – bending of microwaves by the
atmosphereVelocity of electromagnetic wave is a function of
the density of the mediumWhen wave changes medium, speed changesWave bends at the boundary between mediums
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Line-of-Sight EquationsOptical line of sight
Effective, or radio, line of sight
d = distance between antenna and horizon (km)
h = antenna height (m) K = adjustment factor to account for
refraction, rule of thumb K = 4/3
hd 57.3
hd 57.3
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Line-of-Sight EquationsMaximum distance between two antennas for
LOS propagation:
h1 = height of antenna one
h2 = height of antenna two
2157.3 hh
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LOS Wireless Transmission ImpairmentsAttenuation and attenuation distortionFree space lossNoiseAtmospheric absorptionMultipathRefractionThermal noise
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AttenuationStrength of signal falls off with distance
over transmission mediumAttenuation factors for unguided media:
Received signal must have sufficient strength so that circuitry in the receiver can interpret the signal
Signal must maintain a level sufficiently higher than noise to be received without error
Attenuation is greater at higher frequencies, causing distortion
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Free Space LossFree space loss for ideal isotropic antenna
Pt = signal power at transmitting antenna
Pr = signal power at receiving antenna = carrier wavelength d = propagation distance between antennas c = speed of light (≈ 3 x 108 m/s)where d and are in the same units (e.g., meters)Mostly affect the Satellite Communication
2
2
2
2 44
c
fdd
P
P
r
t
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Free Space LossFree space loss equation can be recast:
d
P
PL
r
tdB
4log20log10
dB 98.21log20log20 d
dB 56.147log20log204
log20
dfc
fd
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Free Space LossFree space loss accounting for gain of
antennas
Gt = gain of transmitting antenna
Gr = gain of receiving antenna
At = effective area of transmitting antenna
Ar = effective area of receiving antenna
trtrtrr
t
AAf
cd
AA
d
GG
d
P
P2
22
2
224
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Free Space LossFree space loss accounting for gain of other
antennas can be recast as
rtdB AAdL log10log20log20
dB54.169log10log20log20 rtAAdf
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Categories of NoiseThermal NoiseIntermodulation noiseCrosstalkImpulse Noise
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Thermal NoiseThermal noise due to agitation of electronsPresent in all electronic devices and
transmission mediaCannot be eliminatedFunction of temperatureParticularly significant for satellite
communication
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Thermal NoiseAmount of thermal noise to be found in a
bandwidth of 1Hz in any device or conductor is:
N0 = noise power density in watts per 1 Hz of bandwidth
k = Boltzmann's constant = 1.3803 x 10-23 J/K T = temperature, in kelvins (absolute temperature)
TN k0 W/Hzin
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Thermal NoiseNoise is assumed to be independent of
frequencyThermal noise (in watts) present in a
bandwidth of B Hertz is:
or, in decibel-watts
TBN k
BTN log10 log 10k log10
BT log10 log 10dBW 6.228
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Noise TerminologyIntermodulation noise – occurs if signals with
different frequencies share the same mediumInterference caused by a signal produced at a
frequency that is the sum or difference of original frequencies
Crosstalk – unwanted coupling between signal paths (Significant in ISM band)
Impulse noise – irregular pulses or noise spikesShort duration and of relatively high amplitudeCaused by external electromagnetic disturbances, or
faults and flaws in the communications systemPrimary source of error for digital data transmission
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Expression Eb/N0Ratio of signal energy per bit to noise
power density per Hertz
The bit error rate for digital data is a function of Eb/N0Given a value for Eb/N0 , to achieve a desired error rate,
parameters of this formula can be selectedAs bit rate R increases, transmitted signal power S must
increase to maintain required Eb/N0
This expression is the standard quality measure for digital communication system
performance
TR
S
N
RS
N
Ebk
/
00
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Other ImpairmentsAtmospheric absorption – water vapor (22
GHz) and oxygen (60 GHz) contribute to attenuation
Multipath – obstacles reflect signals so that multiple copies with varying delays are received
Refraction – bending of radio waves as they propagate through the atmosphere
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Multipath PropagationReflection - occurs when signal
encounters a surface that is large relative to the wavelength of the signal
Diffraction - occurs at the edge of an impenetrable body that is large compared to wavelength of radio wave
Scattering – occurs when incoming signal hits an object whose size is in the order of the wavelength of the signal or less
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Effects of Multipath PropagationMultiple copies of a signal may arrive at
different phasesIf phases add destructively, the signal level
relative to noise declines, making detection more difficult
Intersymbol interference (ISI)One or more delayed copies of a pulse may
arrive at the same time as the primary pulse for a subsequent bit
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FadingTime variation of received signal power
caused by changes in the transmission medium or path(s)
In a fixed environment:Changes in atmospheric conditions
In a mobile environment:Multipath propagation
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Types of FadingFast fadingSlow fadingFlat fading (Non Selective fading)Selective fadingRayleigh fading (No LOS path)Rician fading (LOS and mulipath signals)
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Error Compensation MechanismsForward error correctionAdaptive equalizationDiversity techniques
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Forward Error CorrectionTransmitter adds error-correcting code to
data blockCode is a function of the data bits
Receiver calculates error-correcting code from incoming data bitsIf calculated code matches incoming code, no
error occurredIf error-correcting codes don’t match, receiver
attempts to determine bits in error and correct
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Adaptive EqualizationCan be applied to transmissions that carry
analog or digital informationAnalog voice or videoDigital data, digitized voice or video
Used to combat intersymbol interferenceInvolves gathering dispersed symbol
energy back into its original time intervalTechniques
Lumped analog circuitsSophisticated digital signal processing
algorithms
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Diversity TechniquesSpace diversity:
Use multiple nearby antennas and combine received signals to obtain the desired signal
Use collocated multiple directional antennasFrequency diversity:
Spreading out signal over a larger frequency bandwidthSpread spectrum
Time diversity:Noise often occurs in burstsSpreading the data out over time spreads the errors and
hence allows FEC techniques to work wellTDMInterleaving
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Questions
?????????????????????????
?????????
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AssignmentExplain the working of “802.11n” draft
WiFi equipmentHow they achieved speeds greater than
54Mbps?Why are more than two antennas used?Compatibility with 802.11 b/g WiFi
equipment?Any other notable information worth
mentioning
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Next LectureSignal Encoding Techniques