(New page: == Amplitude Modulation == Def:Amplitude modulation (AM) is a method of impressing data onto an alternating-current (AC) carrier waveform.The highest frequency of the modulating data is n...)
 
(Amplitude Modulation)
 
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== Amplitude Modulation ==
 
== Amplitude Modulation ==
  
Def:Amplitude modulation (AM) is a method of impressing data onto an alternating-current (AC) carrier waveform.The highest frequency of the modulating data is normally less than 10 percent of the carrier frequency.
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Def:Amplitude modulation (AM) is a method of data onto an carrier waveform.The highest frequency of the modulating data is normally less than 10 percent of the carrier frequency.
  
 
<math>x(t) \longrightarrow\otimes\longrightarrow y(t)=x(t)c(t) </math>
 
<math>x(t) \longrightarrow\otimes\longrightarrow y(t)=x(t)c(t) </math>
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        <math>\uparrow </math>
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      c(t)
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x(t) : "information bearing signal"
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c(t) : "carrier"
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There are two important types of carriers which are "complex exponential" and "sinusoidal"
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== Complex expenetial  ==
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<math>c(t) = e ^{j(\omega_c t + \theta_c)}</math>
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<math>\omega_c = </math> Frequency of carrier
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<math>\theta_c = </math> Phase of carrier
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complex exponential modulation
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<math>y(t) = e^{j\omega_c t}x(t)</math>
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<math>y(\omega) = F(e^{j\omega_c t}x(t))</math>
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<math>=\frac{1}{2 \pi}F(e^{j\omega_c t})X(\omega)</math>
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<math>=\frac{1}{2\pi} 2\pi \delta (\omega - \omega_c) * X(\omega)</math>
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<math>=X(\omega - \omega_c)\!</math>
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Demodulate the complex exponential
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<math>y(t) \longrightarrow\otimes\longrightarrow x(t) </math>
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        <math>\uparrow </math>
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      <math>e^{-j\omega_ct}</math>
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<math>y(t) = e^{j\omega_c t}x(t)</math>
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<math>e^{-j\omega_c t}y(t) = e^{-j\omega_c t}e^{j\omega_c t}x(t)</math>
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<math>=x(t)\!</math>
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== Source ==
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http://searchcio-midmarket.techtarget.com

Latest revision as of 06:37, 17 November 2008

Amplitude Modulation

Def:Amplitude modulation (AM) is a method of data onto an carrier waveform.The highest frequency of the modulating data is normally less than 10 percent of the carrier frequency.

$ x(t) \longrightarrow\otimes\longrightarrow y(t)=x(t)c(t) $

       $ \uparrow  $
     c(t)

x(t) : "information bearing signal"

c(t) : "carrier"

There are two important types of carriers which are "complex exponential" and "sinusoidal"

Complex expenetial

$ c(t) = e ^{j(\omega_c t + \theta_c)} $

$ \omega_c = $ Frequency of carrier

$ \theta_c = $ Phase of carrier

complex exponential modulation

$ y(t) = e^{j\omega_c t}x(t) $

$ y(\omega) = F(e^{j\omega_c t}x(t)) $

$ =\frac{1}{2 \pi}F(e^{j\omega_c t})X(\omega) $

$ =\frac{1}{2\pi} 2\pi \delta (\omega - \omega_c) * X(\omega) $

$ =X(\omega - \omega_c)\! $

Demodulate the complex exponential

$ y(t) \longrightarrow\otimes\longrightarrow x(t) $

       $ \uparrow  $
     $ e^{-j\omega_ct} $

$ y(t) = e^{j\omega_c t}x(t) $

$ e^{-j\omega_c t}y(t) = e^{-j\omega_c t}e^{j\omega_c t}x(t) $

$ =x(t)\! $


Source

http://searchcio-midmarket.techtarget.com

Alumni Liaison

Correspondence Chess Grandmaster and Purdue Alumni

Prof. Dan Fleetwood