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Transient (Pulsed) Response of an RC Circuit: Consider the RC circuit shown in Figure 1, where the capacitor is initially uncharged. You may assume that you are using a DSO to perform relevant measurements. You now apply a square wave (2 V p-p amplitude and frequency 1.0 kHz) to the input of this circuit? [ (a) Determine the time constant of the RC circuit. (b) How many time constants does the input signal frequency represent? [ (c) Sketch the output voltage waveform and the circuit current waveform for three periods of the input square wave. You must calculate relevant values of current and voltage at the square wave transition points (d) Repeat Part (b) and (c) for input frequencies of 5 kHz and 10 kHz. [ Input 1 kn a2 -0.1 μF Output Fig. 1. Schematic circuit diagram of an RC circuit.

Transient (Pulsed) Response of an RC Circuit: Consider the RC circuit shown in Figure 1, where the capacitor is initially uncharged. You may assume that you are using a DSO to perform relevant measurements. You now apply a square wave (2 V p-p amplitude and frequency 1.0 kHz) to the input of this circuit? [ (a) Determine the time constant of the RC circuit. (b) How many time constants does the input signal frequency represent? [ (c) Sketch the output voltage waveform and the circuit current waveform for three periods of the input square wave. You must calculate relevant values of current and voltage at the square wave transition points (d) Repeat Part (b) and (c) for input frequencies of 5 kHz and 10 kHz. [ Input 1 kn a2 -0.1 μF Output Fig. 1. Schematic circuit diagram of an RC circuit.

Introductory Circuit Analysis (13th Edition)
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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Transient (Pulsed) Response of an RC Circuit: Consider the RC circuit shown in Figure 1, where the capacitor is initially uncharged. You may assume that you are using a DSO to perform relevant measurements. You now apply a square wave (2 V p-p amplitude and frequency 1.0 kHz) to the input of this circuit? [ (a) Determine the time constant of the RC circuit. (b) How many time constants does the input signal frequency represent? [ (c) Sketch the output voltage waveform and the circuit current waveform for three periods of the input square wave. You must calculate relevant values of current and voltage at the square wave transition points (d) Repeat Part (b) and (c) for input frequencies of 5 kHz and 10 kHz. [ Input 1 kn a2 -0.1 μF Output Fig. 1. Schematic circuit diagram of an RC circuit.
Transcribed Image Text:Transient (Pulsed) Response of an RC Circuit: Consider the RC circuit shown in Figure 1, where the capacitor is initially uncharged. You may assume that you are using a DSO to perform relevant measurements. You now apply a square wave (2 V p-p amplitude and frequency 1.0 kHz) to the input of this circuit? [ (a) Determine the time constant of the RC circuit. (b) How many time constants does the input signal frequency represent? [ (c) Sketch the output voltage waveform and the circuit current waveform for three periods of the input square wave. You must calculate relevant values of current and voltage at the square wave transition points (d) Repeat Part (b) and (c) for input frequencies of 5 kHz and 10 kHz. [ Input 1 kn a2 -0.1 μF Output Fig. 1. Schematic circuit diagram of an RC circuit.
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