The forward diode voltage drop is 0.5 volts. The capacitor is discharged at t = 0. • Consider the diode to be ON. Express the node voltage Vo in terms of Vin, R and C • Consider the diode to be OFF. Express the node voltage Vo in terms of Vin, R and C • Consider the particular form of the input voltage Vin (t) shown in the chart (blue line). For this input voltage, compute the node voltage Vo at times t = 0.1 s, t = 6 s, and t 13 s. The values of the circuit
The forward diode voltage drop is 0.5 volts. The capacitor is discharged at t = 0. • Consider the diode to be ON. Express the node voltage Vo in terms of Vin, R and C • Consider the diode to be OFF. Express the node voltage Vo in terms of Vin, R and C • Consider the particular form of the input voltage Vin (t) shown in the chart (blue line). For this input voltage, compute the node voltage Vo at times t = 0.1 s, t = 6 s, and t 13 s. The values of the circuit
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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Transcribed Image Text:The forward diode voltage drop is 0.5 volts. The capacitor is discharged at t =
0.
• Consider the diode to be ON. Express the node voltage Vo in terms of
Vin, R and C
• Consider the diode to be OFF. Express the node voltage Vo in terms of
Vin, R and C
• Consider the particular form of the input voltage Vin (t) shown in the
chart (blue line). For this input voltage, compute the node voltage V at
times t = 0.1 s, t = 6 s, and t= 13 s. The values of the circuit
parameters are R
20, C = 1 F.
Vin (Volts)
Vin (t)
Vo
2
Vin (t)
t (s)
R
10
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