VCC2VCC1RySR5R3C4VOPR2R1C2Q2C5Q1RsC1R4vsU1R6 In the circuit shown in the figure, Rs = 1.88Kohm, R1 = 1201.67Kohm, R2 = 5.72Kohm, R3 =59.80Kohm, R4 = 15.44Kohm, R5 = 3.15Kohm, R6 = 1.05Kohm, Ry 94.19Kohm, VCC1 = 11.00V,%3DVCC2 = 10.00V, Beta1= 126.00, Beta2= 248.00, VT = 25mV, IVBE| = 0.7V and OPAMP is ideal,calculate the absolute value of the voltage gain (IVO/VS|) of the circuit relative to the source (The%3Dresult will be positive).

Answered: Image /qna-images/answer/f8ff2a99-4170-4976-8076-b296f4e5fe90.jpg

In the circuit shown in the figure, Rs = 1.88Kohm, R1 = 1201.67Kohm, R2 = 5.72Kohm, R3 = 59.80Kohm, R4 = 15.44Kohm, R5 = 3.15Kohm, R6 = 1.05Kohm, Ry 94.19Kohm, VCC1 = 11.00V, VCC2 = 10.00V, Beta1= 126.00, Beta2= 248.00, VT = 25mV, VBE| = 0.7V and OPAMP is ideal, calculate the absolute value of the voltage gain (IVO/VS|) of the circuit relative to the source (The result will be positive).

In the circuit shown in the figure, Rs = 1.88Kohm, R1 = 1201.67Kohm, R2 = 5.72Kohm, R3 = 59.80Kohm, R4 = 15.44Kohm, R5 = 3.15Kohm, R6 = 1.05Kohm, Ry 94.19Kohm, VCC1 = 11.00V, VCC2 = 10.00V, Beta1= 126.00, Beta2= 248.00, VT = 25mV, VBE| = 0.7V and OPAMP is ideal, calculate the absolute value of the voltage gain (IVO/VS|) of the circuit relative to the source (The result will be positive).

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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