2.17 An inverting op-amp circuit is fabricated with theresistors R, and R, having x% tolerance (i.e., the value ofeach resistance can deviate from the nominal value by asmuch as ±x%). What is the tolerance on the realized closed-loop gain? Assume the op amp to be ideal. If the nominalclosed-loop gain is –100 V/V and x = 1, what is the range ofgain values expected from such a circuit?

Answered: Image /qna-images/answer/70b1761b-43c5-4aaa-b32a-026fddcd9814.jpg

Answered: 2.17 An inverting op-amp circuit is…

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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2. b) (i) Derive an expression for the differentiator using op-amp. (ii) Design a circuit to perform differentiation of an input signal that varies in frequency from 20HZ to about 2 KHz. (iii) If a sine wave of 0.5 V peak at 2 KHz is applied to the differentiator of part (ii), draw the output waveform.
With capacitors in this Inverting Op-Amp, how should I find worst case values of Rin and Rf?
Suggest a simple op-amp cct to build a Negative Resistor. In other words the resistor seen from the input side is equal to (-R).
Consider the op-amp circuit to the right. Write a general formula for Vout as a function of Vin and the parameters of the resistor and MOSFET. Make sure to pay attention to the orientation of the MOSFET, you may assume an ideal op-amp. Vin R1 om + Q1 Vout
Op amp and diodes are ideal. Derive Vout and sketch the transfer function of Vin vs Vout. Please show complete solution.
1- Mention any two advantages of Integrated Circuit . 2- For the circuit given below : Vin is a sine wave Vinpp=6 V and Vref=-2.4 V , Assume Vsat=±12V Name the circuit and draw the input and output waveforms . Vin Vref 3- Explain why open-loop op-amp configurations are not used in linear applications? Draw the block diagram of opamp and define the function of each block
B- Design a floating current-to-voltage converter that will convert a 4-to20 mA current signal into 0-to 10 V ground-referenced voltage signal. Let the Gain is 5 and feedback resistor (R) is 20 KN.
3I Calculate the the Output Voltage of a non-inverting op-amp with the following parameters Rf = 360KOhms, Vo = -9.3V, and Vi = -0.3V. a.31.2 kOhms b.32 kOhms c.12 kOhms d.31 kOHms
3) Consider the Zener-diode voltage regulator shown below. Suppose you design this circuit to drive (supply) a load resistance RL. The supply voltages to the op-amp are +15 V and -15 V (not shown). a) What is Vout? b) If R = 1 k 2, what is the smallest R, that the circuit can handle without "sagging" the output voltage? c) What should be the power rating of the resistor R? Be explicit about your assumptions. +15 V R Vout IN4738 CS Scanned with CaScanner
these Questions from ELECTRONICS LAB ,The name of Experement is Op-Amp Inverting and Noninverting Amplifiers.
Design an op-amp circuit that can perform this operation: Vo = 2V1V2 – 3V3. Marking Scheme: 1. Circuit Diagram 2. Calculation with Assumptions
What is an A/D converter with Voltage-to-Frequency Conversion (VFC)? What is the working principle?

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