3. An analog signal is given by v(t) = 2Vsin(2 450t) + 3Vsin(2л250t + 300°) + 1.5Vsin(2+800t): a) Based on Nyquist rate, what should be the minimum sampling frequency to transmit the signal digitally? b) If the signal were mapped by a 4-bit quantizer with a resolution of 0.5V, what would be the minimum and maximum voltage found in the waveform? Assume a sinusoidal signal with Vmin = - Vmax c) What bit stream would be generated by the sampled signal of 3.5 V

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Please assist with Q3 a,b, and c thank you. 

3. An analog signal is given by
v(t) = 2Vsin(2+ 450t) + 3Vsin(2+250t + 300°) + 1.5Vsin(2+800t):
a) Based on Nyquist rate, what should be the minimum sampling frequency to transmit
the signal digitally?
b) If the signal were mapped by a 4-bit quantizer with a resolution of 0.5V, what would
be the minimum and maximum voltage found in the waveform? Assume a sinusoidal
with Vmin=- Vmax
c) What bit stream would be generated by the sampled signal of 3.5 V
d) If a receiver was decoding the incoming bit stream of 1011, what voltage level would
be recovered?
Transcribed Image Text:3. An analog signal is given by v(t) = 2Vsin(2+ 450t) + 3Vsin(2+250t + 300°) + 1.5Vsin(2+800t): a) Based on Nyquist rate, what should be the minimum sampling frequency to transmit the signal digitally? b) If the signal were mapped by a 4-bit quantizer with a resolution of 0.5V, what would be the minimum and maximum voltage found in the waveform? Assume a sinusoidal with Vmin=- Vmax c) What bit stream would be generated by the sampled signal of 3.5 V d) If a receiver was decoding the incoming bit stream of 1011, what voltage level would be recovered?
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