Consider the following baseband signal m(t), (whose M(f) is given in figure below) with minimum and maximum freoquencies 0.3 KHz and 0.4 KHz respectively. This signal is modulated with center frequency 2.3 KHz. Find the minimum and maximum bandwidths (in KHz) of the filter that can be used to perfectly construct the LSB-SSB modulated signal. M() f (kHz) a. 0.1, 2.6 b. 0.4, 2 c. 0.4, 2.6 d. None

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8)
Consider the following baseband signal m(t), (whose M(f) is given in figure below)
with minimum and maximum freoquencies 0.3 KHz and 0.4 KHz respectively. This
signal is modulated with center frequency 2.3 KHz. Find the minimum and maximum
bandwidths (in KHz) of the filter that can be used to perfectly construct the LSB-SSB
modulated signal.
M(f)
f (kHz)
.3
.4
а. 0.1, 2.6
b. 0.4,2
с. 0.4, 2.6
d. None
Transcribed Image Text:8) Consider the following baseband signal m(t), (whose M(f) is given in figure below) with minimum and maximum freoquencies 0.3 KHz and 0.4 KHz respectively. This signal is modulated with center frequency 2.3 KHz. Find the minimum and maximum bandwidths (in KHz) of the filter that can be used to perfectly construct the LSB-SSB modulated signal. M(f) f (kHz) .3 .4 а. 0.1, 2.6 b. 0.4,2 с. 0.4, 2.6 d. None
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