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*3. Calculate the output voltage in the circuit of Fig. 15.50. 510 kQ 680 kQ 750 k2 18 k2 22 k2 33 kQ V. 20 uv Figure 15.50 Problem 3

*3. Calculate the output voltage in the circuit of Fig. 15.50. 510 kQ 680 kQ 750 k2 18 k2 22 k2 33 kQ V. 20 uv Figure 15.50 Problem 3

Introductory Circuit Analysis (13th Edition)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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"3. Calculate the output voltage in the circuit of Fig. 15.50. 510 kQ 680 k2 750 k2 18 k2 22 kQ 33 kQ 20 uv A Figure 15.50 Problem 3 Problems 673 "4. Show the connection of an LM124 quad op-amp as a three-stage amplifier with gains of +15, -22, and -30. Use a 420-kf2 feedback resistor for all stages. What output voltage results for an input of V, = 80 µV? 5. Show the connection of two op-amp stages using an LM358 IC to provide outputs that are 15 and -30 times larger than the input. Use a feedback resistor, Rp = 150 kf2, in all stages.
Transcribed Image Text:"3. Calculate the output voltage in the circuit of Fig. 15.50. 510 kQ 680 k2 750 k2 18 k2 22 kQ 33 kQ 20 uv A Figure 15.50 Problem 3 Problems 673 "4. Show the connection of an LM124 quad op-amp as a three-stage amplifier with gains of +15, -22, and -30. Use a 420-kf2 feedback resistor for all stages. What output voltage results for an input of V, = 80 µV? 5. Show the connection of two op-amp stages using an LM358 IC to provide outputs that are 15 and -30 times larger than the input. Use a feedback resistor, Rp = 150 kf2, in all stages.
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