1- v(t) = 8cos(2n ×160t)+ 4cos(2n ×640t) %3D A- Calculate the Nyquist rate for this signal? B- If v(t) is sampled at a rate Ts = 0.001 s what is the resulting discrete time signal v(n)? %3D

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1-v(t) = 8cos(2π x160t)+ 4cos(2π x640t)

 

A- Calculate the Nyquist rate for this signal? B- If v(t) is sampled at a rate Ts = 0.001 s what is the resulting

 

discrete time signal v(n)?

 

2- repeat the Q2 for above v(t)

 

3- assuming that a3 bit ADC channel accepts analog input 0 to 5 volts, determine

 

A- the no. of quantization levels

 

B- the step size of the quantize

 

C- the quantize level when the analog voltage is 3.2 v

 

D- the binary code produced by the ADC

1- v(t) = 8cos(2N ×160t)+ 4cos(2n x640t)
A- Calculate the Nyquist rate for this signal?
%3D
B- If v(t) is sampled at a rate Ts = 0.001 s what is the resulting
discrete time signal v(n)?
2- repeat the Q2 for above v(t)
3- assuming that a3 bit ADC channel accepts analog input 0 to 5
volts, determine
A- the no. of quantization levels
B- the step size of the quantize
C- the quantize level when the analog voltage is 3.2 v
D- the binary code produced by the ADC
Transcribed Image Text:1- v(t) = 8cos(2N ×160t)+ 4cos(2n x640t) A- Calculate the Nyquist rate for this signal? %3D B- If v(t) is sampled at a rate Ts = 0.001 s what is the resulting discrete time signal v(n)? 2- repeat the Q2 for above v(t) 3- assuming that a3 bit ADC channel accepts analog input 0 to 5 volts, determine A- the no. of quantization levels B- the step size of the quantize C- the quantize level when the analog voltage is 3.2 v D- the binary code produced by the ADC
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