a) Identify the op amp circuit configuration. Find the expression of v, in terms of v and v2- b) Assume that v = 3V, specify the range of values for v2 such that the output does not saturate. Plot the graph of v,vs vz for 0 < v2 < 10V. c) Assume that v, = 3V, and vz = 4V and the 24 k resistor is replaced by a variable resistor. Determine the maximum value of the variable resistor that will cause the op-amp to saturate.
a) Identify the op amp circuit configuration. Find the expression of v, in terms of v and v2- b) Assume that v = 3V, specify the range of values for v2 such that the output does not saturate. Plot the graph of v,vs vz for 0 < v2 < 10V. c) Assume that v, = 3V, and vz = 4V and the 24 k resistor is replaced by a variable resistor. Determine the maximum value of the variable resistor that will cause the op-amp to saturate.
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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The op amp in the circuit shown in the figure below is ideal.
10 k2
24 k2
•12V
4 k2
V1
-12V
4 mA
10 k2
Vo
V2
a) Identify the op amp circuit configuration. Find the expression of v, in terms of vị and v2.
b) Assume that v = 3V, specify the range of values for v2 such that the output does not saturate. Plot the
graph of v,vs v2 for 0 < vz < 10V.
c) Assume that v = 3V, and vz = 4V and the 24 kQ resistor is replaced by a variable resistor. Determine
the maximum value of the variable resistor that will cause the op-amp to saturate.
d) For v, = 3V, and v2 = 2V, determine the value of v.. Conclude whether the op-amp stays in its linear
region of operation or not. Justify your answer.
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