Can you show how the correct answer was found. In the second order op amp circuit shown, the component values areR₁ = R₂ =3k and C₁ = C₂ =3μF, and the supply voltage is Vcc =15V.The source voltage is AC and is represented in the formVs(t) = Acos(100t).where A is the amplitude of the sinusoidal input in Volts. Assuming that at timet = 0 there is no charge stored on either capacitor in the circuit, what is thelargest value of the amplitude A that will allow both op-amps to operate in theirlinear ranges (i.e., not saturate)?Hints:1) Be sure to consider the affects the initial conditions have on the response ofthis circuit.2) You must consider the potential saturation of both op-amps in the circuit.You Answered12.15R₁R₂AcetCorrect Answer6.075 margin of error +/-1%

Answered: Image /qna-images/answer/a0c34c0a-7739-451c-8d49-4d73a58585fd.jpg

Answered: In the second order op amp circuit…

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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Project Title: Design a circuit which will give a fluctuating DC Output voltage for an Input Square Wave. Specifications: You will have a square wave as your source voltage where the square wave will have a Peak Amplitude of 24 V and Minimum Amplitude as 0 V with a frequency of 100 Hz. The output voltage is across a capacitor which will fluctuate. Besides, the driving voltage of the capacitor should be another square wave having a Peak Amplitude of 10 V and Minimum Amplitude as 0 V with the same frequency. The time constant is Ims. Now, design the whole circuit. Show the input/output graph in PSpice for the first 10 cycles. Submission Guidelines: One group should submit one simulation (.sch) file and one report (.pdf) file. The report must contain the following: 1. Cover Page 2. Objective (write the problem statement here) 3. Design (detailed calculation of values for all the selected components) (explain how you are getting the driving voltage of the capacitor from the source voltage.…
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(i) For the circuit below, draw the output waveforms for both the given input wave- forms. (ii) How can you convert this circuit into a half-bridge by removing any two compo- nents? Please draw a circuit diagram. Also, draw the current flow through the modified circuit. This can be done by annotating the modified circuit diagram. M (i) (ii)
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