solution mon hoc mang may tinh
TRANSCRIPT
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Chapter 3Chapter 3
Amplitude Modulation Fundamentals
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33--1: AM Concepts1: AM Concepts
In the modulation process, the voice, video, or digital
signal modifies another signal called the carrier. In amplitude modulation (AM) the information signal
varies the amplitude of the carrier sine wave.
The instantaneous value of the carrier amplitudechanges in accordance with the amplitude andfrequency variations of the modulating signal.
An imaginary line called the envelope connects thepositive and negative peaks of the carrier waveform.
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33--1: AM Concepts1: AM Concepts
Figure 3-1: Amplitude modulation. (a) The modulating or information signal.
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33--1: AM Concepts1: AM Concepts
Figure 3-1: Amplitude modulation. (b) The modulated carrier.
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33--1: AM Concepts1: AM Concepts
In AM, it is particularly important that the peak value of
the modulating signal be less than the peak value ofthe carrier.
Vm
< Vc
Distortion occurs when the amplitude of themodulating signal is greater than the amplitude of the
carrier.
A modulator is a circuit used to produce AM.
Amplitude modulators compute the product of the
carrier and modulating signals.
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33--1: AM Concepts1: AM Concepts
Figure 3-3: Amplitude modulator showing input and output signals.
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33--2: Modulation Index and2: Modulation Index and
Percentage of ModulationPercentage of Modulation The modulation index (m) is a value that describes
the relationship between the amplitude of themodulating signal and the amplitude of the carrier
signal.
m = Vm / Vc
This index is also known as the modulating factor or
coefficient, or the degree of modulation.
Multiplying the modulation index by 100 gives the
percentage of modulation.
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33--2: Modulation Index and2: Modulation Index and
Percentage of ModulationPercentage of ModulationOvermodulation and Distortion
Distortion of voice transmissions produces garbled,harsh, or unnatural sounds in the speaker.
Distortion of video signals produces a scrambled and
inaccurate picture on a TV screen.
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33--2: Modulation Index and2: Modulation Index and
Percentage of ModulationPercentage of Modulation
Figure 3-4: Distortion of the envelope caused by overmodulation where the
modulating signal amplitude Vm
is greater than the carrier signal Vc.
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33--2: Modulation Index and2: Modulation Index and
Percentage of ModulationPercentage of ModulationPercentage of Modulation
The modulation index is commonly computed frommeasurements taken on the composite modulated
waveform.
Using oscilloscope voltage values:
Vm =Vmax −
Vmin
2
The amount, or depth, of AM is then expressed as the
percentage of modulation (100 ×
m) rather than as a
fraction.
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33--2: Modulation Index and2: Modulation Index and
Percentage of ModulationPercentage of Modulation
Figure 3-5: AM wave showing peaks (Vmax) and troughs (Vmin).
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33--3: Sidebands and3: Sidebands and
the Frequency Domainthe Frequency Domain Side frequencies, or sidebands are generated as
part of the modulation process and occur in thefrequency spectrum directly above and below the
carrier frequency.
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33--3: Sidebands and3: Sidebands and
the Frequency Domainthe Frequency DomainSideband Calculations
Single-frequency sine-wave modulation generatestwo sidebands.
Complex wave (e.g. voice or video) modulation
generates a range of sidebands. The upper sideband (f USB) and the lower sideband
(f LSB) are calculated:
f USB = f c
+ f m
and f LSB = f c − f
m
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33--3: Sidebands and3: Sidebands and
the Frequency Domainthe Frequency Domain
Figure 3-6: The AM wave is the
algebraic sum of the carrier and
upper and lower sideband sine
waves. (a) Intelligence or
modulating signal. (b) Lower
sideband. (c ) Carrier. (d ) Uppersideband. (e ) Composite AM wave.
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33--3: Sidebands and3: Sidebands and
the Frequency Domainthe Frequency DomainFrequency-Domain Representation of AM
Observing an AM signal on an oscilloscope, you seeonly amplitude variations of the carrier with respect totime.
A plot of signal amplitude versus frequency is referredto as frequency-domain display.
A spectrum analyzer is used to display the frequencydomain as a signal.
Bandwidth is the difference between the upper andlower sideband frequencies.
BW = f USB−f LSB
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33--3: Sidebands and3: Sidebands and
the Frequency Domainthe Frequency Domain
Figure 3-8: The relationship between the time and frequency domains.
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33--3: Sidebands and3: Sidebands and
the Frequency Domainthe Frequency DomainFrequency-Domain Representation of AM
Example: A standard AM broadcast station is allowed to transmitmodulating frequencies up to 5 kHz. If the AM station istransmitting on a frequency of 980 kHz, what aresideband frequencies and total bandwidth?
f USB = 980 + 5 = 985 kHz
f LSB = 980 – 5 = 975 kHz
BW = f USB – f LSB = 985 – 975 = 10 kHz
BW = 2 (5 kHz) = 10 kHz
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33--3: Sidebands and3: Sidebands and
the Frequency Domainthe Frequency DomainPulse Modulation
When complex signals such as pulses or rectangularwaves modulate a carrier, a broad spectrum ofsidebands is produced.
A modulating square wave will produce sidebandsbased on the fundamental sine wave as well as the third,fifth, seventh, etc. harmonics.
Amplitude modulation by square waves or rectangular
pulses is referred to as amplitude shift keying (ASK). ASK is used in some types of data communications.
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33--3: Sidebands and3: Sidebands and
the Frequency Domainthe Frequency Domain
Figure 3-11: Frequency spectrum of an AM signal modulated by a square wave.
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33--3: Sidebands and3: Sidebands and
the Frequency Domainthe Frequency Domain
Figure 3-12: Amplitude modulation of a sine wave carrier by a pulse or rectangularwave is called amplitude-shift keying. (a) Fifty percent modulation. (b) One hundred
percent modulation.
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33--3: Sidebands and3: Sidebands and
the Frequency Domainthe Frequency DomainPulse Modulation
Continuous-wave (CW) transmission can be achievedby turning the carrier off and on, as in Morse code
transmission.
Continuous wave (CW) transmission is sometimesreferred to as On-Off keying (OOK).
Splatter is a term used to describe harmonic sideband
interference.
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33--4: AM Power4: AM Power
In radio transmission, the AM signal is amplified by a
power amplifier. A radio antenna has a characteristic impedance that is
ideally almost pure resistance.
The AM signal is a composite of the carrier andsideband signal voltages.
Each signal produces power in the antenna.
Total transmitted power (PT) is the sum of carrier
power (Pc
) and power of the two sidebands (PUSB and
PLSB).
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33--4: AM Power4: AM Power
When the percentage of modulation is less than the
optimum 100, there is much less power in thesidebands.
Output power can be calculated by using the formula
PT = (IT)2R
where IT
is measured RF current and R is antenna
impedance
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33--4: AM Power4: AM Power
The greater the percentage of modulation, the higher
the sideband power and the higher the total powertransmitted.
Power in each sideband is calculated
PSB = PLSB = PUSB = Pcm2 / 4
Maximum power appears in the sidebands when the
carrier is 100 percent modulated.
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33--5: Single5: Single--Sideband ModulationSideband Modulation
In amplitude modulation, two-thirds of the transmitted
power is in the carrier, which conveys no information.
Signal information is contained within the sidebands.
Single-sideband (SSB) is a form of AM where the
carrier is suppressed and one sideband is eliminated.
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33--5: Single5: Single--Sideband ModulationSideband Modulation
DSB Signals
The first step in generating an SSB signal is to suppressthe carrier, leaving the upper and lower sidebands.
This type of signal is called a double-sidebandsuppressed carrier (DSSC) signal. No power is wastedon the carrier.
A balanced modulator is a circuit used to produce thesum and difference frequencies of a DSSC signal but to
cancel or balance out the carrier. DSB is not widely used because the signal is difficult to
demodulate (recover) at the receiver.
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33--5: Single5: Single--Sideband ModulationSideband Modulation
SSB Signals
One sideband is all that is necessary to conveyinformation in a signal.
A single-sideband suppressed carrier (SSSC) signal
is generated by suppressing the carrier and onesideband.
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33--5: Single5: Single--Sideband ModulationSideband Modulation
SSB Signals
SSB signals offer four major benefits:1. Spectrum space is conserved and allows moresignals to be transmitted in the same frequencyrange.
2. All power is channeled into a single sideband. Thisproduces a stronger signal that will carry fartherand will be more reliably received at greater
distances.3. Occupied bandwidth space is narrower and noise in
the signal is reduced.
4. There is less selective fading over long distances.
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33--5: Single5: Single--Sideband ModulationSideband Modulation
Disadvantages of DSB and SSB
Single and double-sideband are not widely usedbecause the signals are difficult to recover (i.e.
demodulate) at the receiver.
A low power, pilot carrier is sometimes transmittedalong with sidebands in order to more easily recover the
signal at the receiver.
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33--5: Single5: Single--Sideband ModulationSideband Modulation
Signal Power Considerations
In SSB, the transmitter output is expressed in terms ofpeak envelope power (PEP), the maximum power
produced on voice amplitude peaks.
Applications of DSB and SSB
A vestigial sideband signal (VSB) is produced by
partially suppressing the lower sideband. This kind ofsignal is used in TV transmission.
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33--6: Classification of6: Classification of
Radio EmissionsRadio Emissions A code is used to designate the types of signals that
can be transmitted by radio and wire. The code is made up of a capital letter and a number.
Lowercase subscript letters are used for more specific
definition. Examples of codes:
DSB two sidebands, full carrier = A3
DSB two sidebands, suppressed carrier = A3b
OOK and ASK = A1
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33--6: Classification of6: Classification of
Radio EmissionsRadio Emissions The International Telecommunications Union (ITU),
a standards organization, uses a code to describesignals.
Examples are:
A3F amplitude-modulated analog TV J3E SSB voice
F2D FSK data
G7E phase-modulated voice, multiple signals
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33--6: Classification of6: Classification of
Radio EmissionsRadio Emissions
Figure 3-19: Radio emission code designations.
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33--6: Classification of6: Classification of
Radio EmissionsRadio Emissions
Figure 3-20: ITU emissions designations.