C1 Rg For the circuit shown, assuming ideal OP AMP: i) Derive an expression for the Transfer Function. [vo(s)/vi(s)]. 1. ii) Plot the Transfer Function versus frequency (Magnitude & Phase), where: R1 = 1 k2, R2 = 100k2 , C1 = 10 µF & C2 = 1.0 nF. If the values of C1 = C2=0, assuming non-ideal OP AMP with GBWP of 1 MHz, sketch the transfer function magnitude vs frequency only. iii)
C1 Rg For the circuit shown, assuming ideal OP AMP: i) Derive an expression for the Transfer Function. [vo(s)/vi(s)]. 1. ii) Plot the Transfer Function versus frequency (Magnitude & Phase), where: R1 = 1 k2, R2 = 100k2 , C1 = 10 µF & C2 = 1.0 nF. If the values of C1 = C2=0, assuming non-ideal OP AMP with GBWP of 1 MHz, sketch the transfer function magnitude vs frequency only. iii)
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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can you answer question 1, 2 and 3?
![R2
For the circuit shown, assuming ideal OP AMP:
i)
Derive an expression for the Transfer Function. [vo(s)/v:(s)].
1.
Plot the Transfer Function versus frequency (Magnitude & Phase),
ii)
where:
R1 = 1 k2, R2 = 100k2 , C1 = 10 µF & C2 =1.0 nF.
iii)
If the values of C1 = C2=0, assuming non-ideal OP AMP with GBWP of 1 MHz,
sketch the transfer function magnitude vs frequency only.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F69cab7a4-11c1-4b82-80b0-6334f4463140%2Fb07cc86a-f969-4344-80ab-6d4a797780e5%2Fr0qtj9_processed.png&w=3840&q=75)
Transcribed Image Text:R2
For the circuit shown, assuming ideal OP AMP:
i)
Derive an expression for the Transfer Function. [vo(s)/v:(s)].
1.
Plot the Transfer Function versus frequency (Magnitude & Phase),
ii)
where:
R1 = 1 k2, R2 = 100k2 , C1 = 10 µF & C2 =1.0 nF.
iii)
If the values of C1 = C2=0, assuming non-ideal OP AMP with GBWP of 1 MHz,
sketch the transfer function magnitude vs frequency only.
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