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I=147.7nA
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Only answer part C. (b) Calculate the current 1 if Rf = 10 MQ, R-90 kQ, R2-10 kΩ and V-0.1 V (c) Model the circuit of F...
Part A only please Part A - Analysis of an op-amp circuit using a realistic circuit...
Part A only please
Part A - Analysis of an op-amp circuit using a realistic circuit model Learning Goal For an ideal op-amp, we assume that the current flowing into the More realistically, calculatei in the circuit given when R1 9.6 k, R2 -4.2 kQ R3-95 ko. V,-2920 μν , and Voe-15 V . Assume that the op-amp can be modeled with an input resistance of Ri-6.00 M, an output resistance of Ro- 9.5 kS2, and an open-loop gain of...
5.20 The op amp in the circuit shown in Fig, P5.20 is ideal, Calculate v, when v, equals 3 V b) S...
5.20 The op amp in the circuit shown in Fig, P5.20 is ideal, Calculate v, when v, equals 3 V b) Specify the range of values of vg so that the op amp operates in a linear mode. c) Assume that a's equals 5 V and that the 48n resistor is replaced with a variable resistor. What value of the variable resistor will cause the op amp to saturate? Figure P5.20 48 kΩ 15 kΩ 10 V 30 kΩ 10...
Determine Av for the following circuit. +15 V Rc C 2.2 k 22 kΩ Ci Boc 90 β-100 R2 4.7 kΩ 1.0 k12 ...
Determine Av for the following circuit. +15 V Rc C 2.2 k 22 kΩ Ci Boc 90 β-100 R2 4.7 kΩ 1.0 k12 AS Determine Ap of the emitter-follower in the figure below. Assume (beta 175) Vce +10 V 18 kn Ci 2N3904 I V rms C2 10 pF 1.0kΩ 10kn Fint eo r gure below (beta 250) Cc +10 V Rc 2.2kD Ri 2N3904 okn 100 pF R 2k010kn
Determine Av for the following circuit. +15 V Rc C...
Exercise 18.20: Modify the circuit below by replacing R by a pair of diodes connected in parallef in opposite directions. For L+-L-12 V, R2-R-10 kQ, C = 0.1 μF and the diode voltage as a constant...
Exercise 18.20: Modify the circuit below by replacing R by a pair of diodes connected in parallef in opposite directions. For L+-L-12 V, R2-R-10 kQ, C = 0.1 μF and the diode voltage as a constant denoted VD, find an expression for frequency as a function of Vp. fV 0.7 V at 25 with a TC of-2mV/PC, find the frequency at 0, 25°, 50° and 1009 Note that the output of this circuit can be sent to a remotely connected...
. Consider the circuit below. If Vs-Vincos(ot), show that 2 =-1+ jc0C, R, . Plot Vo, as in function of ω for 0<ω< 10 rad/s if Rs-1kQ, Rf-10 kQ, and CF-0.1 mF. What does this circuit do? CF Rf V...
. Consider the circuit below. If Vs-Vincos(ot), show that 2 =-1+ jc0C, R, . Plot Vo, as in function of ω for 0<ω< 10 rad/s if Rs-1kQ, Rf-10 kQ, and CF-0.1 mF. What does this circuit do? CF Rf Vo Rs This is an example of an ACTIVE FILTER because this circuit can amplify as well as filter an input signal.
. Consider the circuit below. If Vs-Vincos(ot), show that 2 =-1+ jc0C, R, . Plot Vo, as in function...
3-F) b. Vout = 0.99 Vin 3-E) For the following circuit, with Ri 18 k2, R2...
3-F) b. Vout = 0.99 Vin
3-E) For the following circuit, with Ri 18 k2, R2 15 k(2, R6 = 40 kQ, V,-10 V, and V,-7 V, find: 22 k2, R 30 k2, R4 20 kQ, Rs- a) the current through Ri, R3, & R6 b) the voltage across R2, R4, & Rs Rs V, 3-F) For the following circuit, what is Vout in terms of Vin for each case? a) R1-100 ?, R2-1 k(2, and R3 = 1.0 M(2...
solve for part a & b only 13.46 PSPICE MULTISIM The op amp in the circuit...
solve for part a & b only
13.46 PSPICE MULTISIM The op amp in the circuit shown in Fig. P13.460 is ideal. There is no energy stored in the circuit at the time it is energized. If v, = 20,000tu(t)V, find (a) V., (b) v,, (c) how long it takes to saturate the operational amplifier, and (d) how small the rate of increase in v, must be to prevent saturation. Figure P13.46 100 nF HE C2 1 k12 R2 5V...
Part C - Saturation of a summing op amp circuit For the circuit shown(Figure 2), determine...
Part C - Saturation of a summing op amp circuit
For the circuit shown(Figure 2), determine the range (i.e.,
maximum and minimum values) of V1V1 such that the op amp operates
in the linear region. Assume that R1 = 5.0 kΩ , R2 = 8.2 kΩ , R3 =
8.2 kΩ , RF = 180 kΩ , V2 = 10 mV, V3 = 60 mV , and VCC = 15 V
.
Express your answer to three significant figures separated...
The op amp in the circuit in (Figure 1) is ideal. Suppose R-16 kΩ Part A...
The op amp in the circuit in (Figure 1) is ideal. Suppose R-16 kΩ Part A What op amp circuit configuration is this? O This circuit is an example of the inverting amplifier o This circuit is an example of the non-inverting amplifier Submit Request Answer ▼ Part B Find vo in terms of vs Express your answer in terms of vs 07 Figure 1 of 1 > Submit Request Answer Part C 56 kΩ Find the minimum value of...
a. For the circuit shown in Fig. 1, find i(t) and vi(t) for all t. b. For the circuit shown in Fig. 2, find vclt) and ic(t) for all t. 10 kΩ 20 kΩ ic 10 mH 18 V 100u(-1) V 40u(C) V F, 13 a....
a. For the circuit shown in Fig. 1, find i(t) and vi(t) for all t. b. For the circuit shown in Fig. 2, find vclt) and ic(t) for all t. 10 kΩ 20 kΩ ic 10 mH 18 V 100u(-1) V 40u(C) V F, 13
a. For the circuit shown in Fig. 1, find i(t) and vi(t) for all t. b. For the circuit shown in Fig. 2, find vclt) and ic(t) for all t. 10 kΩ 20 kΩ ic...
Part A only please
Part A - Analysis of an op-amp circuit using a realistic circuit model Learning Goal For an ideal op-amp, we assume that the current flowing into the More realistically, calculatei in the circuit given when R1 9.6 k, R2 -4.2 kQ R3-95 ko. V,-2920 μν , and Voe-15 V . Assume that the op-amp can be modeled with an input resistance of Ri-6.00 M, an output resistance of Ro- 9.5 kS2, and an open-loop gain of...
5.20 The op amp in the circuit shown in Fig, P5.20 is ideal, Calculate v, when v, equals 3 V b) Specify the range of values of vg so that the op amp operates in a linear mode. c) Assume that a's equals 5 V and that the 48n resistor is replaced with a variable resistor. What value of the variable resistor will cause the op amp to saturate? Figure P5.20 48 kΩ 15 kΩ 10 V 30 kΩ 10...
Determine Av for the following circuit. +15 V Rc C 2.2 k 22 kΩ Ci Boc 90 β-100 R2 4.7 kΩ 1.0 k12 AS Determine Ap of the emitter-follower in the figure below. Assume (beta 175) Vce +10 V 18 kn Ci 2N3904 I V rms C2 10 pF 1.0kΩ 10kn Fint eo r gure below (beta 250) Cc +10 V Rc 2.2kD Ri 2N3904 okn 100 pF R 2k010kn
Determine Av for the following circuit. +15 V Rc C...
Exercise 18.20: Modify the circuit below by replacing R by a pair of diodes connected in parallef in opposite directions. For L+-L-12 V, R2-R-10 kQ, C = 0.1 μF and the diode voltage as a constant denoted VD, find an expression for frequency as a function of Vp. fV 0.7 V at 25 with a TC of-2mV/PC, find the frequency at 0, 25°, 50° and 1009 Note that the output of this circuit can be sent to a remotely connected...
. Consider the circuit below. If Vs-Vincos(ot), show that 2 =-1+ jc0C, R, . Plot Vo, as in function of ω for 0<ω< 10 rad/s if Rs-1kQ, Rf-10 kQ, and CF-0.1 mF. What does this circuit do? CF Rf Vo Rs This is an example of an ACTIVE FILTER because this circuit can amplify as well as filter an input signal.
. Consider the circuit below. If Vs-Vincos(ot), show that 2 =-1+ jc0C, R, . Plot Vo, as in function...
3-F) b. Vout = 0.99 Vin
3-E) For the following circuit, with Ri 18 k2, R2 15 k(2, R6 = 40 kQ, V,-10 V, and V,-7 V, find: 22 k2, R 30 k2, R4 20 kQ, Rs- a) the current through Ri, R3, & R6 b) the voltage across R2, R4, & Rs Rs V, 3-F) For the following circuit, what is Vout in terms of Vin for each case? a) R1-100 ?, R2-1 k(2, and R3 = 1.0 M(2...
solve for part a & b only
13.46 PSPICE MULTISIM The op amp in the circuit shown in Fig. P13.460 is ideal. There is no energy stored in the circuit at the time it is energized. If v, = 20,000tu(t)V, find (a) V., (b) v,, (c) how long it takes to saturate the operational amplifier, and (d) how small the rate of increase in v, must be to prevent saturation. Figure P13.46 100 nF HE C2 1 k12 R2 5V...
Part C - Saturation of a summing op amp circuit
For the circuit shown(Figure 2), determine the range (i.e.,
maximum and minimum values) of V1V1 such that the op amp operates
in the linear region. Assume that R1 = 5.0 kΩ , R2 = 8.2 kΩ , R3 =
8.2 kΩ , RF = 180 kΩ , V2 = 10 mV, V3 = 60 mV , and VCC = 15 V
.
Express your answer to three significant figures separated...
The op amp in the circuit in (Figure 1) is ideal. Suppose R-16 kΩ Part A What op amp circuit configuration is this? O This circuit is an example of the inverting amplifier o This circuit is an example of the non-inverting amplifier Submit Request Answer ▼ Part B Find vo in terms of vs Express your answer in terms of vs 07 Figure 1 of 1 > Submit Request Answer Part C 56 kΩ Find the minimum value of...
a. For the circuit shown in Fig. 1, find i(t) and vi(t) for all t. b. For the circuit shown in Fig. 2, find vclt) and ic(t) for all t. 10 kΩ 20 kΩ ic 10 mH 18 V 100u(-1) V 40u(C) V F, 13
a. For the circuit shown in Fig. 1, find i(t) and vi(t) for all t. b. For the circuit shown in Fig. 2, find vclt) and ic(t) for all t. 10 kΩ 20 kΩ ic...
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