PROBLEM 1: Differential Equation (DE) and Transfer Function (TF) la) Find the u->y TF of the electrical system of Figure la. i(t) R + u(t) · y(t) Figure la: Electrical System governed by a DE Notice that using the current i(t) as “an excuse", we can relate input voltage u(t) to output voltage y(t) via a DE: i(1) =Cy(t)="6)- Y) y(1) +y(t) =u(1) u(t)– y(t) 1 1 R RC* RC 1b) A different system has a TF given by: Y (s) U(s) s(s+1) 10 Find the DE that relates input u(t) and output y(t) of this system (Hint: Think and proceed "backwards")

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PROBLEM 1: Differential Equation (DE) and Transfer Function (TF)
la)
Find the u->y TF of the electrical system of Figure la.
i(t)
R
+
u(t)
· y(t)
Figure la: Electrical System governed by a DE
Notice that using the current i(t) as “an excuse", we can relate input voltage u(t) to output voltage
y(t) via a DE:
i(1) =Cy(t)="6)- Y) y(1) +y(t) =u(1)
u(t)– y(t)
1
1
R
RC*
RC
1b)
A different system has a TF given by:
Y (s)
U(s) s(s+1)
10
Find the DE that relates input u(t) and output y(t) of this system
(Hint: Think and proceed "backwards")
Transcribed Image Text:PROBLEM 1: Differential Equation (DE) and Transfer Function (TF) la) Find the u->y TF of the electrical system of Figure la. i(t) R + u(t) · y(t) Figure la: Electrical System governed by a DE Notice that using the current i(t) as “an excuse", we can relate input voltage u(t) to output voltage y(t) via a DE: i(1) =Cy(t)="6)- Y) y(1) +y(t) =u(1) u(t)– y(t) 1 1 R RC* RC 1b) A different system has a TF given by: Y (s) U(s) s(s+1) 10 Find the DE that relates input u(t) and output y(t) of this system (Hint: Think and proceed "backwards")
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