Conduct transient analysis on the following RL circuit. The pushbutton switch S1 is normally open. Consider this scenario: (1) Begin with switch S1 open, (2) close switch S1 long enough till the voltage across the inductor is almost zero, and then (3) open switch S1 for a long time beginning at time t = 0. We would like to demonstrate how an inductor can produce a high- voltage pulse across a load resistance R3 that is considerably higher than the circuit's power supply V1, a 1.5-volt supply. Consider R1 = 10 22, R2 = 10022, R3 = 47022, L1 = 33mH, ● ● Determine the voltage v across R3 after the switch S1 has been closed for a long time. Determine the equation that describes v (t) after the switch opens at time t = 0. Determine the magnitude of the peak value of v (t). How many times larger is this value compared to the original voltage source V1 = 1.5V? State the value of the circuit time constant T with the switch open. Plot v (t) over the time range T ≤t ≤5T R1 www ・10n V1 1.5 V. $1. مام 100 R2 N 3L1 33mH www R3 470722

Conduct transient analysis on the following RL circuit. The pushbutton switch S1 is normally open. Consider this scenario: (1) Begin with switch S1 open, (2) close switch S1 long enough till the voltage across the inductor is almost zero, and then (3) open switch S1 for a long time beginning at time t = 0. We would like to demonstrate how an inductor can produce a high- voltage pulse across a load resistance R3 that is considerably higher than the circuit's power supply V1, a 1.5-volt supply. Consider R1 = 10 22, R2 = 10022, R3 = 47022, L1 = 33mH, ● ● Determine the voltage v across R3 after the switch S1 has been closed for a long time. Determine the equation that describes v (t) after the switch opens at time t = 0. Determine the magnitude of the peak value of v (t). How many times larger is this value compared to the original voltage source V1 = 1.5V? State the value of the circuit time constant T with the switch open. Plot v (t) over the time range T ≤t ≤5T R1 www ・10n V1 1.5 V. $1. مام 100 R2 N 3L1 33mH www R3 470722

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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