(c) For the voltage clamp circuit shown in Figure 1.4, which of the following expressions corresponds to the output voltage, vour? Assume both the diodes are reverse biased. R www. + VIN VOUT Figure 1.4 (A) vOUT = V (B) VOUT = V2 (C) VOUT = -V1 (D) VOUT = VIN (d) In the circuit of Figure 1.5, which of the following expressions corresponds to the Thevenin equivalent resistance measured between the terminals labelled a and b? Note that v2 refers to the voltage across the resistor labelled R2 while the value of the dependent voltage source is Bv2 where Bis a scalar constant. R1 Bv2 Figure 1.5 R,R2 (A) R, + R, R,R, (В) R, +(1- B)R, R,R, (C) R, - BR, R,R, (D) R, + BR, KHP

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(c) For the voltage clamp circuit shown in Figure 1.4, which of the following expressions
corresponds to the output voltage, vour? Assume both the diodes are reverse biased.
R
D
VIN
V
VOUT
V2
Figure 1.4
(A) VOUT = 1
(B) VOUT = V2
(C) vOUT = -V1
(D) VOUT = VIN
(d) In the circuit of Figure 1.5, which of the following expressions corresponds to the
Thevenin equivalent resistance measured between the terminals labelled a and b? Note that
vz refers to the voltage across the resistor labelled R2 while the value of the dependent
voltage source is Bv2 where Bis a scalar constant.
R1
Figure 1.5
R,R2
(A)
R, + R,
R,R,
(B)
R, +(1– B)R,
R,R2
(C)
R, - BR,
R,R,
(D)
R + BR,
大
Transcribed Image Text:(c) For the voltage clamp circuit shown in Figure 1.4, which of the following expressions corresponds to the output voltage, vour? Assume both the diodes are reverse biased. R D VIN V VOUT V2 Figure 1.4 (A) VOUT = 1 (B) VOUT = V2 (C) vOUT = -V1 (D) VOUT = VIN (d) In the circuit of Figure 1.5, which of the following expressions corresponds to the Thevenin equivalent resistance measured between the terminals labelled a and b? Note that vz refers to the voltage across the resistor labelled R2 while the value of the dependent voltage source is Bv2 where Bis a scalar constant. R1 Figure 1.5 R,R2 (A) R, + R, R,R, (B) R, +(1– B)R, R,R2 (C) R, - BR, R,R, (D) R + BR, 大
(a) Which of the following values corresponds to the voltage, VN, across the non-linear device
in the circuit of Figure 1.1? Assume that the non-linear device is characterised by the i-v
relation shown in Figure 1.2 where V= 6 V and R = 6 kN.
R
in
+
VN
Figure 1.1
in (mA)
3
2-
1
VN (V)
-1
-2-
-8 -6 -4
-2 0 2 4 6
Figure 1.2
(A) VN= - 1 V
(B) VN =1 V
(C) VN = - 3 V
(D) VN = 3V
(+ 1)
Transcribed Image Text:(a) Which of the following values corresponds to the voltage, VN, across the non-linear device in the circuit of Figure 1.1? Assume that the non-linear device is characterised by the i-v relation shown in Figure 1.2 where V= 6 V and R = 6 kN. R in + VN Figure 1.1 in (mA) 3 2- 1 VN (V) -1 -2- -8 -6 -4 -2 0 2 4 6 Figure 1.2 (A) VN= - 1 V (B) VN =1 V (C) VN = - 3 V (D) VN = 3V (+ 1)
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