OBJECTIVES To define and describe AM single sideband To compare single sideband transmission to...
25
OBJECTIVES To define and describe AM single sideband To compare single sideband transmission to conventional double sideband AM The explain the methods of generating SSB To define and describe AM vestigial sideband To describe the advantages and disadvantages of SSB
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Transcript of OBJECTIVES To define and describe AM single sideband To compare single sideband transmission to...
OBJECTIVES To define and describe AM single sideband To compare single sideband transmission to
conventional double sideband AM The explain the methods of generating SSB To define and describe AM vestigial sideband To describe the advantages and
disadvantages of SSB
LECTURE OVERVIEW Single sideband and double sideband Power calculation in SSB Method of generating SSB Vestigial sidebands Advantages and disadvantages of SSB
REVIEW: CONVENTIONAL AM(DSB-FC)
Frequency spectrum:
Bandwidth=2 x fmmax
Total Power=Pcarrier +Pusb +Plsb
fc
fc+fmfc-fm
TWO MAJOR DISADVANTAGES/DRAWBACKS OF DSBFC
Large power consumption, where carrier power constitutes >2/3 transmitted power.{remember:carrier does not contain any information}
Large bandwidth utilized.
Thus, DSBFC is both power and bandwidth inefficient
SINGLE SIDE BAND FULL CARRIER (SSB-FC)
Frequency spectrum:
Bandwidth=fm(max)
Total Power=Pcarrier +Pusb
fc
fc+fmfc-fm
CONT’D…
A form of amplitude modulation in which the carrier is transmitted at full power but only one of the sidebands (either the upper or lower) is transmitted
Requires less bandwidth than DSBFC but also produces a demodulated signal with a lower amplitude
SINGLE SIDE BAND SUPPRESS CARRIER (SSB-SC)
Frequency spectrum:
Bandwidth=fm(max)
Total Power=+Pusb
fc
fc+fmfc-fm
CONT’D…
A form of amplitude modulation in which the carrier is totally suppressed and one of the sidebands removed.
Therefore, SSBSC requires half as much bandwidth as conventional DSB AM and considerably less transmitted power
COMPARISON OF TIME DOMAIN REPRESENTATION OF THREE COMMON AM TRANSMISSION SYSTEMS:
Tomasi
EXAMPLE 1
For an AM DSCFC wave with a peak unmodulated carrier voltage Vc = 10 Vp,frequency of 100kHz, a load resistor of RL = 10 , frequency of modulating signal of 10kHz and m = 1, determine the following
i) Powers of the carrier and the upper and lower sidebands.
ii) Total power of the modulated wave.
iii) Bandwidth of the transmitted wave.
iv) Draw the power and frequency spectrum.
EXAMPLE 1..CONT’D
For the same given values, determine questions (ii)-(iv) for a AM DSB-SC, AM SSB-FC and AM SSB-SC systems. Determine also the percentage of power saved in each of the system design.
EXAMPLE 1..CONT’D Solution for DSBFC;i)
ii)
iii) Bandwidth=2xfmmax=2(10kHz)=20kHz
W
Pm
Pm
PPccct
5.7)5(4
1)5(
4
15
4422
22
WPm
PP
WR
V
R
VP
c
lsbusb
cc
c
25.14
5102
)10(
2
)2/(
2
222
EXAMPLE 1..CONT’D
Solution:For DSB-SC
ii)
iii)Bandwidth=2xfmmax=2(10kz)=20kHz
iv)
%67.66
%1005.7
5%
5
5.25.7
xW
WPower
W
WWPower
saved
saved
W
Pm
Pm
Pcct
5.2)5(4
1)5(
4
14422
22
110kHz90kHz
EXAMPLE 1..CONT’D Solution:For SSB-FC
ii)
iii)Bandwidth=fmmax=10kHz
iv)
%67.16
%1005.7
25.1%
25.1
25.65.7
xW
WPower
W
WWPower
saved
saved
W
Pm
PPcct
25.6)5(4
15
42
2
100kHz 110kHzfc-fm
EXAMPLE 1..CONT’D Solution:For SSB-sC
ii)
iii)Bandwidth=fmmax=10kHz
iv)
%33.83
%1005.7
25.6%
25.6
25.15.7
xW
WPower
W
WWPower
saved
saved
W
Pm
Pct
25.1)5(4
14
2
2
fc
110kHzfc-fm
METHODS OF GENERATING SSB
i) Filtering method A filter removes the undesired
sideband producing SSB. Balanced modulators is used to
suppress the unwanted carrier and filters to suppress the unwanted sidebands
Quartz crystal filters are the most widely used sideband filters since they are very selective and inexpensive.
BLOCK DIAGRAM OF FILTERING METHOD
Filterresponsecurve
Sidebandfilter
Balancedmodulator
Carrieroscillator
Microphone Audioamplifier
Linearamplifier
Antenna
Uppersidebands
DSBsignal
SSBsignal
Lowersidebands
CONT’D…
ii) Phasing method using two balance modulator
Another way to produce SSB uses a phase shift method to eliminate one sideband.
Two balanced modulators driven by carriers and modulating signals 90º out of phase produce DSB.
Adding the two DSB signals together results in one sideband being cancelled out.
BLOCK DIAGRAM OF PHASING METHOD
BalancedModulator 1
Balanced Modulator 2
Phase shifter
Phase shifter
+
Information signal
Carrier signal
Output Signal, aot
Am cos wmt
Am cos (wmt + 90)
Ac cos (wct + 90)
A2(t)
A1(t)
MATHEMATICAL ANALYSIS OF PHASING METHOD
)2()90cos()90cos(2
1
cos*)90cos()(
)1()()()(
00
0
1
210
twtwAAtwtwAA
twAtwAta
tatata
mcmcmcmc
mmcc
)3()90cos()90cos(2
1
)90cos(*)cos()(
00
0
2
twtwAAtwtwAA
twAtwAta
mcmcmcmc
mmcc
)90cos(
)3()2()(0
0
twtwAA
ta
mcmc
VESTIGIAL SIDEBAND (VSB) Also called asymmetric sideband
system. Compromise between DSB & SSB. Easy to generate. Bandwidth is only ~ 25% greater than
SSB signals. Derived by filtering DSB, one pass
band is passed almost completely while just a trace or vestige of the other sideband is included.
CONT’D
AM wave is applied to a vestigial sideband filter, producing a modulation scheme – VSB + C
Mainly used for television video transmission.
CONT’D…VSB
VSB Frequency Spectrum
fcfc
LSB MSB
Carrier
VSB
ADVANTAGES/BENEFITS OF SSB Power consumption Bandwidth conservation Selective fading Noise reduction
DISADVANTAGES OF SSB Complex receivers Tuning difficulties
