For the circuit shown in Figure P7.12, the parameters are R 1 = 10 kΩ , R 2 = 10 kΩ , R 3 = 40 kΩ , and C = 10 μF . (a) What is the value of the voltage transfer function V o / V i at very low frequencies? (b) Determine the value of the voltage transfer function at very high frequencies. (c) Derive the expression for the voltage transfer function T ( s ) = V o ( s ) / V i ( s ) . Put the expression in the form T ( s ) = K ( 1 + s τ A ) / ( 1 + s τ B ) . What are the values of K , τ A , and τ B ? Figure P7.12
For the circuit shown in Figure P7.12, the parameters are R 1 = 10 kΩ , R 2 = 10 kΩ , R 3 = 40 kΩ , and C = 10 μF . (a) What is the value of the voltage transfer function V o / V i at very low frequencies? (b) Determine the value of the voltage transfer function at very high frequencies. (c) Derive the expression for the voltage transfer function T ( s ) = V o ( s ) / V i ( s ) . Put the expression in the form T ( s ) = K ( 1 + s τ A ) / ( 1 + s τ B ) . What are the values of K , τ A , and τ B ? Figure P7.12
Solution Summary: The author explains the value of voltage transfer function at low frequency.
For the circuit shown in Figure P7.12, the parameters are
R
1
=
10
kΩ
,
R
2
=
10
kΩ
,
R
3
=
40
kΩ
, and
C
=
10
μF
. (a) What is the value of the voltage transfer function
V
o
/
V
i
at very low frequencies? (b) Determine the value of the voltage transfer function at very high frequencies. (c) Derive the expression for the voltage transfer function
T
(
s
)
=
V
o
(
s
)
/
V
i
(
s
)
. Put the expression in the form
T
(
s
)
=
K
(
1
+
s
τ
A
)
/
(
1
+
s
τ
B
)
. What are the values of K,
τ
A
, and
τ
B
?
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8. Please note you may be asked to explain your solution to any of the questions.
Question 1 (25 marks)
Use constant-voltage-drop model to analyse the circuit in Figure 1.
(a) Re-draw the circuit by replacing each diode with its equivalent circuit.
(b) Calculate the values of li, 12, b and Is.
(c) Determine the voltage across R1, VR-
(5 marks)
(15 marks)
(5 marks)
Si R 3.3kQ
ΚΩ
ww
+ VR1
12
15
13
14
Ge
+
Ge
R3
20V
Ge
Si
12.2ΚΩ
R4
R₂
4.7 ΚΩ
5.1 ΚΩ
Ge
Figure 1
EPIC
Pri
146
Romania with step costs in km
Straight-line distance
to Bucharest
* Oradea
71,
75,
Zerind
151
rad &
140
197
Neamt
87
lasi
92
Arad
366
Bucharest
0
Craiova
160
Dobreta
242
Eforie
161
Fagaras
178
118
Sibiu 99 Fagaras
80
Rimnicu Vilcea
Giurgiu
77
Vaslui
Hirsova
151
Tasi
226
Lugoj
244
Timisoara
111
Mebadia
241
229
142
211
Neamt
234
Lugoj
Pitesti
97
Oradea
380
70
146
101
Mehadia
75
138
9181
yep
98
Pitesti
98
Hirsova
85
Rimnicu Vilcea 193
Urziceni
86
Sibiu
253
Bucharest
Timisoara
329
120
Urziceni
80
Dobreta
90
Vaslui
199
Craiova
Eforie
☐ Giurgiu
Zerind
374
each of the following search strategies include,
(a) Initial (Arad)
(b) Goal.
(c) Search tree
(d) Path Taken
(e) Path Returned
(f) Path Cost
(i) A*
1) Greedy Best First
Compare Time, Optimality, Complexity and Completeness
Section C
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