5.3The op amp in the circuit in Fig. P5.3 is ideal. Ans vo= -12V Ans vo= -24V saturated at - 18V • a. Calculate vo if va = 1.5V and vp = OV. . b. Calculate voif va = 3V and vp = OV. • c. Calculate vo if va = 1V and vp = 2V. • d. Calculate vo if va = 4V and vp = 6V. Ans vo= 10V Ans vo= 22V saturated at vo = 18V • e. If v = 4.5V, specify the range of va such that the amplifier does not saturate. Ans 2.8125 ≤ ≤ 7.2125 20 ΚΩ 5 ΚΩ w 160 ΚΩ 18 V - 18 V 340 ΚΩ
5.3The op amp in the circuit in Fig. P5.3 is ideal. Ans vo= -12V Ans vo= -24V saturated at - 18V • a. Calculate vo if va = 1.5V and vp = OV. . b. Calculate voif va = 3V and vp = OV. • c. Calculate vo if va = 1V and vp = 2V. • d. Calculate vo if va = 4V and vp = 6V. Ans vo= 10V Ans vo= 22V saturated at vo = 18V • e. If v = 4.5V, specify the range of va such that the amplifier does not saturate. Ans 2.8125 ≤ ≤ 7.2125 20 ΚΩ 5 ΚΩ w 160 ΚΩ 18 V - 18 V 340 ΚΩ
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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This question was posted by another student, parts a and c are correct, the rest is not for some reason. Please help determine why and what the correct answer is.
Transcribed Image Text:5.3The op amp in the circuit in Fig. P5.3 is ideal.
Ans vo = -12V
• a. Calculate vo if va = 1.5V and vp = 0V.
• b. Calculate voif va = 3V and vp = OV .
• c. Calculate v, if va = 1V and vp = 2V.
Ans vo= -24V saturated at - 18V
Ans vo= 10V
. d. Calculate vo if va = 4V and vp = 6V.
Ans vo = 22V saturated at vo = 18V
• e. If v = 4.5V, specify the range of va such that the amplifier does not saturate.
Ans 2.8125 ≤ va ≤ 7.2125
Va
20 ΚΩ
Ub
5 ΚΩ
160 ΚΩ
m
18 V
- 18 V
340 ΚΩ
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