For a DA converter, the LRC circuit chosen has inductance L=10 H , resistance R=10ohm and capacitance C=0.2F . The input digital signal is a power surge (impulse) of magnitude 100v lasting an instant at t=a. Use your notes to model the second order differential equation in terms of the charge q suited to this application. Simplify the equation with the coefficient of q'' as 1. Use the Laplace transform and calculate the (general) output voltage v0 if v0=1/C. Your solution will be in terms of a . Use the initial conditions q(0)=0 and q'(0) . Do not use Matlab as its solution will not be identifiable in the solution entry.
For a DA converter, the LRC circuit chosen has inductance L=10 H , resistance R=10ohm and capacitance C=0.2F . The input digital signal is a power surge (impulse) of magnitude 100v lasting an instant at t=a. Use your notes to model the second order differential equation in terms of the charge q suited to this application. Simplify the equation with the coefficient of q'' as 1. Use the Laplace transform and calculate the (general) output voltage v0 if v0=1/C. Your solution will be in terms of a . Use the initial conditions q(0)=0 and q'(0) . Do not use Matlab as its solution will not be identifiable in the solution entry.
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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For a DA converter, the LRC circuit chosen has inductance L=10 H , resistance R=10ohm and
capacitance C=0.2F . The input digital signal is a power surge (impulse) of magnitude 100v
lasting an instant at t=a. Use your notes to model the second order differential equation in terms of
the charge q suited to this application. Simplify the equation with the coefficient of q'' as 1. Use the
Laplace transform and calculate the (general) output voltage v0 if v0=1/C. Your solution will be in
terms of a . Use the initial conditions q(0)=0 and q'(0) . Do not use Matlab as its solution will
not be identifiable in the solution entry.
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