Sqaure Wave Fourier Transform question

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Homework Help Overview

The discussion revolves around a Physics Lab experiment involving the Fourier transform of a square wave signal generated by a function generator and analyzed using a spectrum analyzer. Participants are exploring the characteristics of the Fourier transform, particularly the presence of smaller peaks alongside the main peaks in the frequency spectrum.

Discussion Character

  • Exploratory, Assumption checking

Approaches and Questions Raised

  • Participants are attempting to understand the significance of the smaller peaks observed in the Fourier transform, questioning whether these peaks indicate a lack of purity in the signal. There are inquiries about the possibility of sharing visual data from the experiment to aid in analysis.

Discussion Status

The discussion is ongoing, with participants expressing uncertainty about the classification of the topic within the forum. There is an acknowledgment of the need for more information, such as visual representations of the spectrum analyzer's output, to better understand the observed phenomena.

Contextual Notes

Participants note the base frequency of the square wave as 100 MHz and mention the behavior of the peaks on both standard and log scales. There is a concern regarding the appropriateness of the forum for discussing Fourier transforms, as some believe it may be more advanced than introductory physics.

nissanztt90
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Homework Statement



This is a question from a Physics Lab i recently completed. We used a function generator to provide a signal to a spectrum analyzer that performed a Fourier transform on the signal. In this case the signal was a square wave. When viewing the Fourier transform on a log scale, smaller peaks were being produced of a constant magnitude compared to the main Fourier peaks that incrementally dropped in magnitude. What do these smaller peaks correspond to?

Homework Equations





The Attempt at a Solution



The only thing i can come up with is that the signal was not totally pure? I really don't understand Fourier transforms all that well.
 
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nissanztt90 said:

Homework Statement



This is a question from a Physics Lab i recently completed. We used a function generator to provide a signal to a spectrum analyzer that performed a Fourier transform on the signal. In this case the signal was a square wave. When viewing the Fourier transform on a log scale, smaller peaks were being produced of a constant magnitude compared to the main Fourier peaks that incrementally dropped in magnitude. What do these smaller peaks correspond to?

Homework Equations





The Attempt at a Solution



The only thing i can come up with is that the signal was not totally pure? I really don't understand Fourier transforms all that well.

Can you post shots of the square wave and the spectrum analyzer screen?

(BTW, I may move this to Intro Physics; I'm not sure yet.)
 
Cant post a picture unfortunately.

I apologize if its in the wrong forum again, i didnt think Fourier transforms were introductory physics. I ran a search on Fourier and saw mostly advanced physics and calculus and beyond, so i thought this forum was acceptable.

The base frequency was 100mhz, so the standard scale showed increasingly smaller peaks every 100mhz. The log scale showed more or less the same thing with the magnitude of the peaks decreasing but a different scale obviously, as well as peaks that remained at a constant magnitude, maybe 2/3 the magnitude of the largest main peak.
 
nissanztt90 said:
Cant post a picture unfortunately.

I apologize if its in the wrong forum again, i didnt think Fourier transforms were introductory physics. I ran a search on Fourier and saw mostly advanced physics and calculus and beyond, so i thought this forum was acceptable.

The base frequency was 100mhz, so the standard scale showed increasingly smaller peaks every 100mhz. The log scale showed more or less the same thing with the magnitude of the peaks decreasing but a different scale obviously, as well as peaks that remained at a constant magnitude, maybe 2/3 the magnitude of the largest main peak.

No worries about the forum. Could you maybe sketch the spectrum analyzer display and scan/post it? It's hard to speculate on the source of the other spectrum spikes without seeing their spacing, frequencies, etc.
 

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