Q4) A) Find an Equation for the impulse response h[n] of an LTI filters whose frequency response H(ej^) (which is real-valued for all frequency) is shown in this Figure. 10 -T -0.8 30 -0.2π 0 H(e) 0.2π 0.8 B) Compute the 4-point DFT of the sequence x[n] = {1,1,0,0}. π
Q4) A) Find an Equation for the impulse response h[n] of an LTI filters whose frequency response H(ej^) (which is real-valued for all frequency) is shown in this Figure. 10 -T -0.8 30 -0.2π 0 H(e) 0.2π 0.8 B) Compute the 4-point DFT of the sequence x[n] = {1,1,0,0}. π
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Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Question
![Q4)
A) Find an Equation for the impulse response h[n] of an LTI filters whose
frequency response H(ej^) (which is real-valued for all frequency) is shown in
this Figure.
10
-T -0.8
30
-0.2π
0
H(e)
0.2π
0.8
B) Compute the 4-point DFT of the sequence x[n] = {1,1,0,0}.
π](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fa4e23d50-b6e1-4880-9ad9-a789799b751b%2F3ea90200-ab98-4a5d-b85c-50f138dc2a9a%2F68ctlj5_processed.png&w=3840&q=75)
Transcribed Image Text:Q4)
A) Find an Equation for the impulse response h[n] of an LTI filters whose
frequency response H(ej^) (which is real-valued for all frequency) is shown in
this Figure.
10
-T -0.8
30
-0.2π
0
H(e)
0.2π
0.8
B) Compute the 4-point DFT of the sequence x[n] = {1,1,0,0}.
π
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