2. For the single time constant circuit in the figure below (a) Classify the circuit as STC high or low pass for the voltage output VOUT. by finding the gain vo/ VIN at @ = 0 and at @ = ∞ (b) Find the cutoff frequency in Hz and the gain in dB. (c) If an input VIN = 5 + 5sin40лt + 15sin(2π 10º)t Volts is given to this circuit. Write the expression for the corresponding output voltage vout as a function of time. (d) Draw the amplitude Bode plot of this filter clearly marking the slopes and critical points on the plot. + 6kQ 6kQ C1 = 1nF 2ΚΩ 1ΚΩ VOUT VIN 12ΚΩ 2ΚΩ 1ΚΩ
2. For the single time constant circuit in the figure below (a) Classify the circuit as STC high or low pass for the voltage output VOUT. by finding the gain vo/ VIN at @ = 0 and at @ = ∞ (b) Find the cutoff frequency in Hz and the gain in dB. (c) If an input VIN = 5 + 5sin40лt + 15sin(2π 10º)t Volts is given to this circuit. Write the expression for the corresponding output voltage vout as a function of time. (d) Draw the amplitude Bode plot of this filter clearly marking the slopes and critical points on the plot. + 6kQ 6kQ C1 = 1nF 2ΚΩ 1ΚΩ VOUT VIN 12ΚΩ 2ΚΩ 1ΚΩ
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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Transcribed Image Text:2. For the single time constant circuit in the figure below
(a) Classify the circuit as STC high or low pass for the voltage output VOUT.
by finding the gain vo/ VIN at @ = 0 and at @ = ∞
(b) Find the cutoff frequency in Hz and the gain in dB.
(c) If an input VIN = 5 + 5sin40лt + 15sin(2π 10º)t Volts is given to this circuit.
Write the expression for the corresponding output voltage vout as a function of time.
(d) Draw the amplitude Bode plot of this filter clearly marking the slopes and critical points
on the plot.
+
6kQ
6kQ
C1 = 1nF
2ΚΩ
1ΚΩ
VOUT
VIN
12ΚΩ
2ΚΩ
1ΚΩ
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