3. DERIVE THE TIME AND FREQUENCY DOMAIN MODEL OF THE NON-INVERTING OP-AMP SHOWN IN THE SCHEMATIC DIAGRAM BELOW. NOTE: INPUT: vi(t) or V;(s) OUTPUT:v (t) or V. (s) R₁ = 10kΩ C₁ = 1nF R2 = 50kn = 1nF C₂ Vi(t) R1 C1 C2 R2 Vo(t) PLOT THE SYSTEM TIME RESPONE AND FREQUENCY RESPONSE.

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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3. DERIVE THE TIME AND FREQUENCY DOMAIN MODEL OF THE NON-INVERTING OP-AMP
SHOWN IN THE SCHEMATIC DIAGRAM BELOW.
NOTE:
INPUT: v₂ (t) or V₁(s)
OUTPUT: v(t) or V. (s)
R₁ = 10kΩ
C₁
= 1nF
R₂ = 50kn
C₂ = 1nF
Vi(t)
R1
C1
$
C2
R2
Vo(t)
PLOT THE SYSTEM TIME RESPONE AND FREQUENCY RESPONSE.
Transcribed Image Text:3. DERIVE THE TIME AND FREQUENCY DOMAIN MODEL OF THE NON-INVERTING OP-AMP SHOWN IN THE SCHEMATIC DIAGRAM BELOW. NOTE: INPUT: v₂ (t) or V₁(s) OUTPUT: v(t) or V. (s) R₁ = 10kΩ C₁ = 1nF R₂ = 50kn C₂ = 1nF Vi(t) R1 C1 $ C2 R2 Vo(t) PLOT THE SYSTEM TIME RESPONE AND FREQUENCY RESPONSE.
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