(d) What is the time constant r of the response? Plot the response v,(1) and give the values of v. at t = t, 2r, and 5r. R = 10 kly ww- C= 1uF R = 10 k2 ww Vcc Vin = 10 V
(d) What is the time constant r of the response? Plot the response v,(1) and give the values of v. at t = t, 2r, and 5r. R = 10 kly ww- C= 1uF R = 10 k2 ww Vcc Vin = 10 V
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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Question
![gineering
(d) What is the time constant r of the
response? Plot the response v,(1)
and give the values of v, at t = r,
2T, and 5 r.
R 10 k2-
wwt
C= 1pF
R=10 k2
ww
= 10 V
Figure P10.22 Op-Amp circuit for problem P10-22.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F6d58a375-bffc-4e27-9347-d72fe4cf63fb%2F72deefe3-10cf-4a34-bedd-b987d4b1b213%2Frxravdj_processed.jpeg&w=3840&q=75)
Transcribed Image Text:gineering
(d) What is the time constant r of the
response? Plot the response v,(1)
and give the values of v, at t = r,
2T, and 5 r.
R 10 k2-
wwt
C= 1pF
R=10 k2
ww
= 10 V
Figure P10.22 Op-Amp circuit for problem P10-22.
![10-22. A constant voltage source vn(t) = 10
volts is applied to the Op-Amp circuit
shown in Fig. P10.22. The output volt-
age v,(t) satisfies the following first-
order differential equation and initial
conditions:
dv.(t)
+V。(1) = -V(り、
0.01
dt
in
v.(0) = 0 V.
%3D
(a) Find
Votran (1).
(b) Find the steady-state solution v
if vin = 10 V.
(c) If the initial output voltage is
v.(0) = 0 V, determine the total
the
transient solution,
Figure
0.55
%3D
response.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F6d58a375-bffc-4e27-9347-d72fe4cf63fb%2F72deefe3-10cf-4a34-bedd-b987d4b1b213%2Fzi2jzfu_processed.jpeg&w=3840&q=75)
Transcribed Image Text:10-22. A constant voltage source vn(t) = 10
volts is applied to the Op-Amp circuit
shown in Fig. P10.22. The output volt-
age v,(t) satisfies the following first-
order differential equation and initial
conditions:
dv.(t)
+V。(1) = -V(り、
0.01
dt
in
v.(0) = 0 V.
%3D
(a) Find
Votran (1).
(b) Find the steady-state solution v
if vin = 10 V.
(c) If the initial output voltage is
v.(0) = 0 V, determine the total
the
transient solution,
Figure
0.55
%3D
response.
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