Question #5: For the frequency response shown on the right, identify on the graph: (1) the center frequency (fc), (2) lower cut-off frequency (fi); (3) higher cut-off frequency (fi); and (4) the Bandwidth (at -3dB point). (Please note the units of X- axis is in Mega Hertz; where M=mega = 10%); (5) Also what is the minimum sampling frequency one can use for this waveform?
Question #5: For the frequency response shown on the right, identify on the graph: (1) the center frequency (fc), (2) lower cut-off frequency (fi); (3) higher cut-off frequency (fi); and (4) the Bandwidth (at -3dB point). (Please note the units of X- axis is in Mega Hertz; where M=mega = 10%); (5) Also what is the minimum sampling frequency one can use for this waveform?
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Transcribed Image Text:Question #5: For the frequency response shown on the right,
identify on the graph: (1) the center frequency (fc), (2) lower
cut-off frequency (fi); (3) higher cut-off frequency (fi); and
(4) the Bandwidth (at -3dB point). (Please note the units of X-
axis is in Mega Hertz; where M=mega = 10°);
(5) Also what is the minimum sampling frequency one can use
for this waveform?
-6
X(t)
-1 0 1
Norm. Mag. (dB)
t
0
-5
-10
-20
-25
-30
-35
-40
Question #6: Find the Fourier transform of the entire following signal (combination of delta pulses) shown below
using the given equation:
0
5
10
Frequency (MHz)
X(ƒ)= ↑ x(t)e¯jør dt
88
Sifting Property
15
s(t-a). f(t)dt = f(a)
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