4. The waveform of a sinusoidal voltage is shown as Vin(t) n -2V+ (a) Determine the equation of the sinusoidal voltage. (Note that the unit of time is in milliseconds) 2V 14 t, ms (b) If the sinusoidal voltage is applied on a 1022, determine the power dissipated by the resistor. (c) Determine the time in the first cycle at which the value sinusoidal voltage is 0.6V.

Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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4. The waveform of a sinusoidal voltage is shown as
Vin(t)
2V
-2V+
(a) Determine the equation of the sinusoidal voltage. (Note that the
unit of time is in milliseconds)
(b) If the sinusoidal voltage is applied on a 1022, determine the power
dissipated by the resistor.
14 t, ms
(c) Determine the time in the first cycle at which the value sinusoidal
voltage is 0.6V.
(c) Draw the waveform of VD(t) and Vr(t) if the sinusoidal voltage is
applied as input to a diode circuit as shown. Use ideal diode
approximation.
Vin
D
ID
Transcribed Image Text:4. The waveform of a sinusoidal voltage is shown as Vin(t) 2V -2V+ (a) Determine the equation of the sinusoidal voltage. (Note that the unit of time is in milliseconds) (b) If the sinusoidal voltage is applied on a 1022, determine the power dissipated by the resistor. 14 t, ms (c) Determine the time in the first cycle at which the value sinusoidal voltage is 0.6V. (c) Draw the waveform of VD(t) and Vr(t) if the sinusoidal voltage is applied as input to a diode circuit as shown. Use ideal diode approximation. Vin D ID
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