Optimizing Bandwidth in AM Modulation

AI Thread Summary
The discussion centers on determining the correct bandwidth for AM modulation, specifically addressing confusion regarding the carrier frequency's role. It is clarified that the bandwidth for amplitude modulation is typically twice the maximum audio frequency, which is necessary for proper signal representation. The conversation also touches on the differences between single-sideband and double-sideband broadcasts, noting that the bandwidth calculation varies accordingly. Additionally, FM modulation is mentioned, highlighting that its bandwidth can be more complex due to the modulation index and the need for additional bandwidth in stereo broadcasts. Overall, understanding the relationship between carrier frequency and bandwidth is crucial for effective modulation in both AM and FM signals.
Faiq
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Homework Statement


IMG_4378.jpg

The Attempt at a Solution


What should the bandwidth be over here? Confused since there is no mention of carrier frequency.
 
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is this correct?

For sound to be represented/interpreted by the receiver it will receive it as the difference in frequency of the carrier wave. Since the difference in frequency has to 4500 for max frequency of audio to be represented thus bandwidth is also equal to this. (Bandwidth = difference in carrier and audio frequency )
 
Faiq said:
is this correct?

For sound to be represented/interpreted by the receiver it will receive it as the difference in frequency of the carrier wave. Since the difference in frequency has to 4500 for max frequency of audio to be represented thus bandwidth is also equal to this. (Bandwidth = difference in carrier and audio frequency )
I don't believe this is quite correct. See if this helps
https://www.electronics-notes.com/a...odulation-am-bandwidth-spectrum-sidebands.php
 
I agree with #3, consider the entire span of frequencies at the worst-case signal frequency.
 
Faiq said:
Confused since there is no mention of carrier frequency.

It mentions a range of carrier frequencies.
 
Right.
At this point I would direct you to post 2 & study the link's contents.
 
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Bandwidth is basically the width of the spectrum used (as per that diagram). So for a typical double side band broadcast it's roughly twice the maximum audio bandwidth.

Faiq said:
I was taught that bandwidth is Sideband - Carrier frequency.

That would be the case for a single sideband broadcast.

https://en.wikipedia.org/wiki/Single-sideband_modulation
 
Okay and in FM modulation, the bandwidth is again twice the Fs-Fc?
 
  • #10
With FM there are potentially more sidebands depending on the modulation index.
http://www.radio-electronics.com/in...y-modulation/spectrum-bandwidth-sidebands.php

Although in most cases the modulation index is small and only one pair of sidebands is used.

It's slightly more complicated for real world commercial broadcast FM radio stations because they usually broadcast in stereo and that needs more bandwidth for the Left and Right audio...

Edit: Tried to add a link to an image but it failed. Scroll down here to "Typical spectrum of composite baseband signal"

https://en.wikipedia.org/wiki/FM_broadcasting
 
  • #11
Thank you very much.
 
  • #12
Thank you very much.
 

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