In handout 4, you learned about the principles, operation, and characteristics of the operational amplifier. Op-amps are used in such a wide variety of circuits and applications. The following are some applications of the op-amp: Comparator, Summing Amplifier, Integrator, Differentiator, Schmitt trigger, ... In this assignment you are required to explain and discuss in detail how to use the op-amp as Integrator and Differentiator. Describe and analyze the principles of operation of both cases. Provide full analysis aided with diagrams, equations, and formulas. Providing a numerical examples would be an asset. Hint: Don't forget to cite your reference(s)

Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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If it is possible to finish up what is left on the instruction. I already draw the circuit. The first picture has the requirements and the second picture is my work. Please add what is missing.
Vin
Cercolt!
Inbegrebe
mm
V.
Y-
T
Vin 21
-Yout
E
Differentietok
V-
f
If an op-amp is connected in negative feedback
Vireool Shteises > V² V
Differentie ta => Vort = - RC
Vout
V²-> Voltage at Non-inverting terminss
V-> Voltage of laverting terminol.
1
Integrath > Voot = AC | Vindt
Via
dt
V + = OV => V = OV
Vin
I= V₁₂-0 V₂ 20
R
Cuppent through Capacitas I = C & (V = Vost
I = -( ! Vout
Form K
Differentsion
Voot
Vout=
If Vie - A Sin (1) V
R
Sloot
st
Vi
RC
Refvir st
out >
=> Voot = =/ / | Afia (1₂) Sta
Acos (wt) v
R
WRC
V² = OV =>V=OY, I = ( = (v₁n-V) = ( Vin
Vout 2-IR + V² ==R (₁)
Vort=-RC dein
If Vin Asia (14) V
<> Koot == + (Asin (ve) = -AWRC Co (W6) V
Transcribed Image Text:Vin Cercolt! Inbegrebe mm V. Y- T Vin 21 -Yout E Differentietok V- f If an op-amp is connected in negative feedback Vireool Shteises > V² V Differentie ta => Vort = - RC Vout V²-> Voltage at Non-inverting terminss V-> Voltage of laverting terminol. 1 Integrath > Voot = AC | Vindt Via dt V + = OV => V = OV Vin I= V₁₂-0 V₂ 20 R Cuppent through Capacitas I = C & (V = Vost I = -( ! Vout Form K Differentsion Voot Vout= If Vie - A Sin (1) V R Sloot st Vi RC Refvir st out > => Voot = =/ / | Afia (1₂) Sta Acos (wt) v R WRC V² = OV =>V=OY, I = ( = (v₁n-V) = ( Vin Vout 2-IR + V² ==R (₁) Vort=-RC dein If Vin Asia (14) V <> Koot == + (Asin (ve) = -AWRC Co (W6) V
In handout 4, you learned about the principles, operation, and characteristics of the operational amplifier.
Op-amps are used in such a wide variety of circuits and applications. The following are some applications
of the op-amp: Comparator, Summing Amplifier, Integrator, Differentiator, Schmitt trigger, ...
In this assignment you are required to explain and discuss in detail how to use the op-amp as Integrator
and Differentiator. Describe and analyze the principles of operation of both cases. Provide full analysis
aided with diagrams, equations, and formulas. Providing a numerical examples would be an asset.
Hint: Don't forget to cite your reference(s)
Transcribed Image Text:In handout 4, you learned about the principles, operation, and characteristics of the operational amplifier. Op-amps are used in such a wide variety of circuits and applications. The following are some applications of the op-amp: Comparator, Summing Amplifier, Integrator, Differentiator, Schmitt trigger, ... In this assignment you are required to explain and discuss in detail how to use the op-amp as Integrator and Differentiator. Describe and analyze the principles of operation of both cases. Provide full analysis aided with diagrams, equations, and formulas. Providing a numerical examples would be an asset. Hint: Don't forget to cite your reference(s)
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