The op amp in the circuit shown in the figure below is ideal. Rectangular Snip 10 k2 24 k2 12V 4 k2 V1 -12V 4 mA 10 k2 Vo S v2 a) Identify the op amp circuit configuration. Find the expression of v, in terms of vị and v2. b) Assume that vị = 3V, specify the range of values for v2 such that the output does not saturate. Plot the graph of v,vs vz for 0 < vz < 10V. c) Assume that v1 = 3V, and v2 = 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 vo. Conclude whether the op-amp stays in its linear region of operation or not. Justify your answer.

The op amp in the circuit shown in the figure below is ideal. Rectangular Snip 10 k2 24 k2 12V 4 k2 V1 -12V 4 mA 10 k2 Vo S v2 a) Identify the op amp circuit configuration. Find the expression of v, in terms of vị and v2. b) Assume that vị = 3V, specify the range of values for v2 such that the output does not saturate. Plot the graph of v,vs vz for 0 < vz < 10V. c) Assume that v1 = 3V, and v2 = 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 vo. Conclude whether the op-amp stays in its linear region of operation or not. Justify your answer.

Delmar's Standard Textbook Of Electricity

7th Edition

ISBN:9781337900348

Author:Stephen L. Herman

Publisher:Stephen L. Herman

Chapter18: Resistive-inductive Parallel Circuits

Section: Chapter Questions

Problem 13PP: In an R-L parallel circuit, IT=1.25 amps, R=1.2k, and XL=1k. Find IR

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