For items 1 to 3: Express the transfer functions below using R1, R2, C1, and C2. V (s) 1. Derive the transfer function from input to node N: G(s) V„(s) IN 2. Get the transfer function from node N to output: K(s) = V„S) Using G(s) and K(s), what is the transfer function from input to output, V IN 3.
For items 1 to 3: Express the transfer functions below using R1, R2, C1, and C2. V (s) 1. Derive the transfer function from input to node N: G(s) V„(s) IN 2. Get the transfer function from node N to output: K(s) = V„S) Using G(s) and K(s), what is the transfer function from input to output, V IN 3.
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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PART 1 OF 2
Please answer items 1-3 thanks
Transcribed Image Text:For items 1 to 3: Express the transfer functions below using R1, R2, C1, and C2.
V (s)
1.
Derive the transfer function from input to node N: G(s)
VI(s)
V.(s)
V„(s)
2.
Get the transfer function from node N to output: K(s)
3.
Using G(s) and K(s), what is the transfer function from input to output,
V.
IN(S)
For items 4 to 6: In an experiment, the circuit's transfer function was designed to be
5(s+2)
s(s+5)
V
For the required expressions below, include their corresponding units.
4.
The intended output of the circuit, vo(t), is 10te
u(t) Volts. What is its s-domain
expression, Vo(s)?
5.
What should be the input voltage expression, VIN(S), to achieve this output in the
s-domain?
6.
Provide the simplified expression of this input voltage in the time domain, vn(t).
Transcribed Image Text:Refer to the circuit below with an ideal operational amplifier.
C2
R2
VN
Vo
R1
RL
Vin
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