For the circuit shown with the output voltage defined on the capacitor C2: R1 1 k2 x(t) C2 500 µF y(t) C1 500 µF 1. Determine the transfer function H (s) Y(s) as a function of C1, C2, and R1 (do not use the numerical values in X(s) this part). For the following questions, you can use numerical values available on the diagram above. 2. Draw a pole-zero map (clearly indicate the number of poles and zeros at each location). 3. Determine the step response (response to x(t) = u(t)).
For the circuit shown with the output voltage defined on the capacitor C2: R1 1 k2 x(t) C2 500 µF y(t) C1 500 µF 1. Determine the transfer function H (s) Y(s) as a function of C1, C2, and R1 (do not use the numerical values in X(s) this part). For the following questions, you can use numerical values available on the diagram above. 2. Draw a pole-zero map (clearly indicate the number of poles and zeros at each location). 3. Determine the step response (response to x(t) = u(t)).
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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Transcribed Image Text:For the circuit shown with the output voltage defined on the capacitor C2:
R1
1 k2
x(t)
C2
500 μF
y(t)
C1
500 μF
1. Determine the transfer function H (s)
Y(s)
as a function of C1, C2, and R1 (do not use the numerical values in
X(s)
this part).
For the following questions, you can use numerical values available on the diagram above.
2. Draw a pole-zero map (clearly indicate the number of poles and zeros at each location).
3. Determine the step response (response to x(t) = u(t).
4. Determine the impulse response, h(t).
5. Determine the type of this filter. Explain!
6. At which frequencies (in Hz) does this filter has infinite gain? Explain!
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