Difference between revisions of "Frequency Response Visualization"

Revision as of 00:15, 19 March 2021

The magnitude response of a linear system is the intersection of the magnitude of the transfer function, $\left|H\left(s\right)\right|$ , in the $s=\sigma +j\omega$ -plane and the plane containing the $j\omega$ -axis, as shown by the dashed green lines in Figs. 1-4. Note that the poles are the values of $s$ that makes $\left|H\left(s\right)\right|\rightarrow \infty$ , and the zeros are values of $s$ that result in $\left|H\left(s\right)\right|=0$ .

Figure 1: The low-pass Butterworth filter frequency response.	Figure 2: The low-pass Chebyshev Type-I filter frequency response.
Figure 3: The low-pass Chebyshev Type-II filter frequency response.	Figure 4: The low-pass Elliptic filter frequency response.
Figure 5: The low-pass Bessel filter frequency response.

@@ Line 6: / Line 6: @@
 |-
 |[[File:Chebyshev2 vid.gif|thumb|400px|Figure 3: The low-pass Chebyshev Type-II filter frequency response.]]
-|[[File:Elliptic vid.gif|thumb|400px|Figure 3: The low-pass Elliptic filter frequency response.]]
+|[[File:Elliptic vid.gif|thumb|400px|Figure 4: The low-pass Elliptic filter frequency response.]]
 |-
-|[[File:Bessel vid.gif|thumb|400px|Figure 3: The low-pass Bessel filter frequency response.]]
+|[[File:Bessel vid.gif|thumb|400px|Figure 5: The low-pass Bessel filter frequency response.]]
 |
 |-
 |}

Difference between revisions of "Frequency Response Visualization"

Revision as of 00:15, 19 March 2021

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