Low pass filter (arctan domain)

AI Thread Summary
The discussion centers on the phase characteristic of a low-pass filter (LPF) and the confusion surrounding the arctan function's domain and range. It clarifies that the phase shift for a single-pole LPF varies from 0 to -90 degrees, indicating that the output values represent the range, not the domain. The phase response is derived from the arctan function, which is only partially represented in the provided graph, leading to misunderstandings. As frequency increases, the phase shift transitions from 0 to -90 degrees, aligning with the behavior of the LPF. The provided link offers further clarification on the topic.
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Homework Statement


when I'm trying to calculate and show the graphic of the phase characteristic i don't understand why the domain range of the arctan function is [0,90] :


Homework Equations


aa4a.gif





image392.gif



The Attempt at a Solution


shouldn't be the domain of arctan function between [-Pi/2,Pi/2]?
z_tri59.png
 
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The value of the phase shift is the range of the function, not the domain. The domain is the input range to the function and the range is the output values of the function.

The phase shift for a single-pole LPF varies from 0 to -90 degrees, as shown in the diagram. It is 0 at low frequencies in the passband of the filter, and drops to -90 degrees past the cutoff of the LPF.
 
I see that you've edited your post to add the red arctan curve. I think it may be the shape of the phase response in the first plot that is confusing you. I don't think it is plotted very well -- it make is look like the full arctan() curve, when it is really only half of it.

When ω = 0, you get the arctan(0) which is zero. As the frequency increases, you get half of the arctan() function, going negative because of the sign being negative.

Does that make more sense now?

http://www.electronics-tutorials.ws/filter/filter_2.html

.
 
thank you, the link was helpful too!
 

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