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In Op-Amp circuit of Fig. 2.1, find Vo in terms of Vi and V2 assume the ideal op amp model. Find an expression for Vo. If V1 = 1.5V and V2=3.0V, find Vo for Ri-lk and R2 =2k2 R, R レド R1 V2 R2

In Op-Amp circuit of Fig. 2.1, find Vo in terms of Vi and V2 assume the ideal op amp model. Find an expression for Vo. If V1 = 1.5V and V2=3.0V, find Vo for Ri-lk and R2 =2k2 R, R レド R1 V2 R2

Introductory Circuit Analysis (13th Edition)
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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Draw a shunt regulator and clearly show the four main elements. Derive an expression for the output voltage. A differential amplifier has an output voltage given by Vo =9 V1-10V2. The two inputs are VI = 10 mV and V2 = 20 mV. Determine common mode input voltage, common mode gain and the differential gain. %3D In Op-Amp circuit of Fig. 2.1, find Vo in terms of Vi and V2 assume the ideal op amp model. Find an expression for Vo. If V = 1.5V and V2=3.0V, find Vo for Ri=lk and R2 =2k2 R, R2 R, R2 V2
Transcribed Image Text:Draw a shunt regulator and clearly show the four main elements. Derive an expression for the output voltage. A differential amplifier has an output voltage given by Vo =9 V1-10V2. The two inputs are VI = 10 mV and V2 = 20 mV. Determine common mode input voltage, common mode gain and the differential gain. %3D In Op-Amp circuit of Fig. 2.1, find Vo in terms of Vi and V2 assume the ideal op amp model. Find an expression for Vo. If V = 1.5V and V2=3.0V, find Vo for Ri=lk and R2 =2k2 R, R2 R, R2 V2
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