- 4.4.1: An amplifier has a gain of 15 and the input waveform shown in Fig. ...
- 4.4.2: An amplifier has a gain of 5 and the output waveform shown in Fig. ...
- 4.4.3: An op-amp based amplifier has supply voltages of 5 V and a gain of ...
- 4.4.4: For an ideal op-amp, the voltage gain and input resistance are infi...
- 4.4.5: Revisit your answers in 4.4 under the following nonideal scenarios....
- 4.4.6: Revisit the exact analysis of the inverting configuration in Sectio...
- 4.4.7: Revisit the exact analysis of the inverting amplifier in Section 4....
- 4.4.8: An op-amp based amplifier has 18 V supplies and a gain of 80. Over ...
- 4.4.9: Assuming an ideal op-amp, determine the voltage gain of the circuit...
- 4.4.10: Assuming an ideal op-amp, determine the voltage gain of the circuit...
- 4.4.11: Assuming an ideal op-amp in Fig. P4.11, determine the value of RX t...
- 4.4.12: Assuming an ideal op-amp, find the voltage gain of the network in F...
- 4.4.13: Assuming an ideal op-amp in Fig. P4.13, determine the output voltag...
- 4.4.14: Determine the gain of the amplifier in Fig. P4.14. What is the valu...
- 4.4.15: For the amplifier in Fig. P4.15, find the gain and Io. Vo VS Io R2 ...
- 4.4.16: Using the ideal op-amp assumptions, determine the values of Vo and ...
- 4.4.17: Using the ideal op-amp assumptions, determine I1, I2, and I3 in Fig...
- 4.4.18: In a useful application, the amplifier drives a load. The circuit i...
- 4.4.19: The op-amp in the amplifier in Fig. P4.19 operates with 15 V suppli...
- 4.4.20: For the amplifier in Fig. P4.20, the maximum value of VS is 2 V and...
- 4.4.21: For the circuit in Fig. P4.21, (a) find Vo in terms of V1 and V2. (...
- 4.4.22: Find Vo in the circuit in Fig. P4.22, assuming that the op-amp is i...
- 4.4.23: The network in Fig. P4.23 is a current-to-voltage converter or tran...
- 4.4.24: Calculate the transfer function io1 for the network shown in Fig. P...
- 4.4.25: Determine the relationship between 1 and io in the circuit shown in...
- 4.4.26: Find Vo in the network in Fig. P4.26 and explain what effect R1 has...
- 4.4.27: Determine the expression for o in the network in Fig. P4.27. + A B ...
- 4.4.28: Show that the output of the circuit in Fig. P4.28 is Vo = [ 1 + R2 ...
- 4.4.29: Find Vo in the network in Fig. P4.29. + + R1 1 k 5 V 4 k 4 V Vo + +...
- 4.4.30: Find the voltage gain of the op-amp circuit shown in Fig. P4.30. + ...
- 4.4.31: Determine the relationship between o and in in the circuit in Fig. ...
- 4.4.32: In the network in Fig. P4.32, derive the expression for o in terms ...
- 4.4.33: For the circuit in Fig. P4.33, find the value of R1 that produces a...
- 4.4.34: Find Vo in the circuit in Fig. P4.34. + + 40 k 5 k 5 k 5 V 4 V 20 k...
- 4.4.35: Find Vo in the circuit in Fig. P4.35. + + + + 40 k 30 k 100 k 12 V ...
- 4.4.36: Determine the expression for the output voltage, o, of the invertin...
- 4.4.37: Determine the output voltage, o, of the noninverting averaging circ...
- 4.4.38: Find the input/output relationship for the current amplifier shown ...
- 4.4.39: Find Vo in the circuit in Fig. P4.39. + 80 k 40 k Vo 40 k 20 k 10 k...
- 4.4.40: Find o in the circuit in Fig. P4.40. o 2 1 R2 R2 R1 R1 + + Figure P...
- 4.4.41: Find the expression for o in the differential amplifier circuit sho...
- 4.4.42: Find o in the circuit in Fig. P4.42. o 1 R2 R3 R4 R1 + Figure P4.42
- 4.4.43: Find the output voltage, o, in the circuit in Fig. P4.43. o 1 2 R3 ...
- 4.4.44: The electronic ammeter in Example 4.7 has been modified and is show...

# Solutions for Chapter 4: OPERATIONAL AMPLIFIERS

## Full solutions for Basic Engineering Circuit Analysis | 11th Edition

ISBN: 9781118539293

Solutions for Chapter 4: OPERATIONAL AMPLIFIERS

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