6. For the following square wave power source, if the switch closes at t = 0 find: a) The current as steady state (Ipp) Jury b) The voltage across the inductor at steady state c) The voltage across the resistor at steady state d) The time constant: 50 Vpp 100 kHz www 15 ΚΩ V (inductor) = TE SW V (resistor) Tss= e) The time it takes to get to steady state (ie. maximum current through the inductor) L = 30 mH seconds seconds f) Calculate the current at T3: please answer all subpart in typing
6. For the following square wave power source, if the switch closes at t = 0 find: a) The current as steady state (Ipp) Jury b) The voltage across the inductor at steady state c) The voltage across the resistor at steady state d) The time constant: 50 Vpp 100 kHz www 15 ΚΩ V (inductor) = TE SW V (resistor) Tss= e) The time it takes to get to steady state (ie. maximum current through the inductor) L = 30 mH seconds seconds f) Calculate the current at T3: please answer all subpart in typing
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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Transcribed Image Text:6. For the following square wave power source, if the switch closes at t = 0 find:
The current as steady state (Ipp)
b) The voltage across the inductor at steady state
c) The voltage across the resistor at steady state
d) The time constant:
50 Vpp
100 kHz
www
15 ko
V (inductor) =
T=
SW
V (resistor)
Tss=
e) The time it takes to get to steady state (ie. maximum current through the inductor)
L = 30 mH
seconds
seconds
f) Calculate the current at T3:
please answer all subpart in typing
format
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