Let the excitation be a pulse wave with amplitude of 3V. The pulse resembles a step input when it is on. Assume that the pulse is on for a long time, so that the capacitor is fully charged. When the pulse is off, the capacitor will discharge. It follows that the initial conditions are v(0) = 3V and i(0) = 0. Please find Vo(t), the voltage across the capacitor for t>0, the time t>0 means that you need to determine v(t) from the time the pulse is off until the v(t) reaches a steady state.

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Let the excitation be a pulse wave with amplitude of 3V. The pulse resembles a step input when it is on.
Assume that the pulse is on for a long time, so that the capacitor is fully charged. When the pulse is off, the
capacitor will discharge. It follows that the initial conditions are v(0) = 3V and i(0) = 0.

Please find Vo(t), the voltage across the capacitor for t>0, the time t>0 means that you need to determine v(t) from the time the
pulse is off until the v(t) reaches a steady state.

22
(+1
R
ww
+
V
V
L To
+
V
с
18+
Fig. 2 RLC circuit for Experiment B1
Vs = Pulse waveform with amplitude of 3V, R= 3.3 kN, L=1 H
C-= 10 µF
Transcribed Image Text:22 (+1 R ww + V V L To + V с 18+ Fig. 2 RLC circuit for Experiment B1 Vs = Pulse waveform with amplitude of 3V, R= 3.3 kN, L=1 H C-= 10 µF
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