6. Suppose that Ha(s) is an analog_bandpass filter whose half-power frequencies are ₁ and 2. (That is, |H(ji)| = √2/2 for i = 1,2 and the magnitude is close to one in between these frequencies.) You want to apply a bilinear transformation to Ha(s) to obtain a digital filter H(z). For which of the following pairs of frequencies ₁ and ₂ is it possible to obtain H(z) having half-power frequencies of w = 57/12 and w = 7T/12? (a) ₁ 200 and ₂ = (b) Ω1 = 111 and (c) Ως (d) Ως = 300 and = 285 ₂ = 200 ₂ = 547 = 600 and 2 = 1019
6. Suppose that Ha(s) is an analog_bandpass filter whose half-power frequencies are ₁ and 2. (That is, |H(ji)| = √2/2 for i = 1,2 and the magnitude is close to one in between these frequencies.) You want to apply a bilinear transformation to Ha(s) to obtain a digital filter H(z). For which of the following pairs of frequencies ₁ and ₂ is it possible to obtain H(z) having half-power frequencies of w = 57/12 and w = 7T/12? (a) ₁ 200 and ₂ = (b) Ω1 = 111 and (c) Ως (d) Ως = 300 and = 285 ₂ = 200 ₂ = 547 = 600 and 2 = 1019
Introductory Circuit Analysis (13th Edition)
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Transcribed Image Text:6. Suppose that Ha(s) is an analog bandpass filter whose half-power frequencies are ₁
and №₂. (That is, |H(ji)| = √2/2 for i = 1,2 and the magnitude is close to one in
between these frequencies.) You want to apply a bilinear transformation to Ha(s) to
obtain a digital filter H(z). For which of the following pairs of frequencies ₁ and 2 is
it possible to obtain H(z) having half-power frequencies of w = 57/12 and w = 7π/12?
(a) Ως = 200 and ₂ = 285
(b) ₁
111 and
₂ 200
=
(c) Ως
300 and
(d) Ως = 600 and
=
2 = 547
₂ = 1019
Expert Solution
Step 1
Introduction
Analog bandpass filters
Analog bandpass filters are electronic devices used to filter out frequencies outside of specific ranges in order to reduce or amplify signals in a specific bandwidth. They are often used in radio, TV, telecommunications, and other audio/visual applications.
Given Data
Half power frequencies,
To determine
The pair of frequencies and .
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