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...

See similar textbooks

Similar questions

For the circuit below assuming an ideal switch, preform transient analysis to predict the voltage across resistor, R2 and plot the results. The inductor will have zero current as initial condition. L1 0.005 2 U1 100mH R1 1k V1 20Vdc R2 100
a) We assume that the switch is on. Calculate the reactance values and find the charging current in the circuit below. Is the circuit capacitive or inductive? Show that the voltage across the capacitance can be slightly larger than the source voltage U. (This is called the Ferranti effect and means that we can get a voltage rise beyond overhead lines with small loads. This is mostly relevant at the highest voltage levels. The frequency f is 50Hz, and assume voltage U= √2⋅24kV
A thyristor switched capacitor consists of: A. A fixed capacitance and a relatively small a relatively small surge limiting inductance B. A fixed capacitance and a relatively large surge limiting inducatance C. A variable capacitance and a relatively small surge limiting inductance D. A Variable capacitance and a relatively large surge limiting inducatnce
Describe the steady-state similarities and differences of DC and AC circuits with purelyresistive elements
A sinusoidal voltage has a value of 100 volts at 2.5 milliseconds and takes 20 milliseconds to complete one cycle. Then find the maximum cost and the time to reach it for the first time.
R₁ (10 m) 0.2 H ми 00000 &₁ = 50V R₂ (200) E₂ = 30V
A sinusoidal voltage has a value of 100 volts at 2.5 milliseconds and completes one cycle.It takes 20 milliseconds. Then find the maximum cost and the time to reach it for the first time
1. What impedance vector 0 – j22 represents:A. A pure resistance.B. A pure inductance.C. A pure capacitance.D. An inductance combined with a resistance.
3. Explain the following for the pure resistor, pure inductor and pure capacitor. (a) Circuit diagram (b) Phasor diagram (c) waveforms.
Derive the expressions of voltages across resistor and capacitor and the current through the circuit in charging and discharging phases of an RC circuit excited by DC voltage. Name some uses of transient currents. 2.
What do you think will happen to the current if the frequency is adjusted higher in the pure inductance experiment? and what will happen to the current if the frequency is adjusted lower in pure inductance experiment? explain why please
For the network shown in figure (3), if the switch is closed for 2usec and then opened for Susec, find mathematical expressions for vi and in of both periods of time and then plot the waveforms of vL and i as a function of time.