A) Determine the zero state response Vo(t) of this circuit when Vi(t) = e^-4t V %3D B) Determine the step response of the circuit shown above C) Find the asymptotic magnitude Bode plot of the circuit above. Clearly indicate the slopes (dB/decade) in the plot. Also clearly mark the gains at low or high frequencies in the 20log1o magnitude plot. Also determine and indicate where your poles and zeros are. Indicate also the type of the pole and zero. If you could not determine the transfer function for Problem 3 a) than use the transfer function given below. V(s) (s + 500)? H(s) I(s) 625(s +2)(s+ 200)

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100%
0.05 F
25 2
Transfer function
5H
v,(t)
VoCs)
Vi(S)
55²
55²+25st20
S*+5 s +4
A) Determine the zero state response Vo(t) of this circuit when Vi(t) = e^-4t V
B) Determine the step response of the circuit shown above
Find the asymptotic magnitude Bode plot of the circuit above. Clearly indicate
the slopes (dB/decade) in the plot. Also clearly mark the gains at low or high frequencies
in the 20log1o magnitude plot. Also determine and indicate where your poles and zeros
are. Indicate also the type of the pole and zero. If you could not determine the transfer
function for Problem 3 a) than use the transfer function given below.
V(s)
H(s) =
I(s)
(s + 500)2
625(s + 2)(s + 200)
%3D
21
26
Transcribed Image Text:0.05 F 25 2 Transfer function 5H v,(t) VoCs) Vi(S) 55² 55²+25st20 S*+5 s +4 A) Determine the zero state response Vo(t) of this circuit when Vi(t) = e^-4t V B) Determine the step response of the circuit shown above Find the asymptotic magnitude Bode plot of the circuit above. Clearly indicate the slopes (dB/decade) in the plot. Also clearly mark the gains at low or high frequencies in the 20log1o magnitude plot. Also determine and indicate where your poles and zeros are. Indicate also the type of the pole and zero. If you could not determine the transfer function for Problem 3 a) than use the transfer function given below. V(s) H(s) = I(s) (s + 500)2 625(s + 2)(s + 200) %3D 21 26
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