Amplitude Modulation: Unique Frequency & Bandwidth

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SUMMARY

Amplitude Modulation (AM) involves a carrier wave with a unique frequency whose amplitude varies according to the modulating signal. Despite having a single frequency, AM signals exhibit bandwidth due to the presence of multiple frequencies generated by the variations in the modulating signal's amplitude. The Fourier transform illustrates this concept, showing that a sine wave with constant amplitude results in a delta function, while a sine wave with varying amplitude produces a spectrum of frequencies. Tools such as Mathematica and Matlab can be utilized to visualize these effects through Fourier transforms.

PREREQUISITES
  • Understanding of Amplitude Modulation (AM)
  • Familiarity with Fourier Transform concepts
  • Basic knowledge of signal processing
  • Experience with software tools like Mathematica or Matlab
NEXT STEPS
  • Explore the Fourier Transform in-depth using Mathematica or Matlab
  • Study the principles of Amplitude Modulation and its bandwidth implications
  • Investigate different types of modulation techniques beyond AM
  • Analyze real-world applications of AM in communication systems
USEFUL FOR

Students and professionals in electrical engineering, signal processing experts, and anyone interested in understanding the intricacies of Amplitude Modulation and its frequency characteristics.

Tulio Cesar
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1) I am studying modulation of carrier waves, but I still can't understand something: knowing that in AM the carrier wave has only one frequency and just only its amplitudes vary according to variations in modulating signal amplitudes, why AM carrier waves have bandwidth if the frequency is supposed to be unique? Does it have any point with variations in the modulating signal frequencies? If it does, what about simple signals with only just one frequency? Thank you all for the answers.
 
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The only way it can have one frequency is to have a constant amplitude. Once you start varying the amplitude, it necessarily consists of a range of frequencies. Are you familiar with the Fourier transform? If you take the Fourier transform of a sine wave of constant amplitude, it is a delta function, meaning it has only a single frequency. But if you take the Fourier transform of a sine wave of varying amplitude, it will consist of a range of frequencies. If you have a program that can take the Fourier transform of different functions (Mathematica, Matlab, ...) try putting in sine waves with different modulations and you will see the result.
 
Tulio Cesar said:
1) I am studying modulation of carrier waves, but I still can't understand something: knowing that in AM the carrier wave has only one frequency and just only its amplitudes vary according to variations in modulating signal amplitudes, why AM carrier waves have bandwidth if the frequency is supposed to be unique? Does it have any point with variations in the modulating signal frequencies? If it does, what about simple signals with only just one frequency? Thank you all for the answers.
this article may answer your questions

http://www.pa2old.nl/files/am_fundamentals.pdf Dave
 
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