Problem 5. Find the transfer function Ty(s) = V₂(s)/V₁(s) of the circuit in Figure 5. (a) Find the de gain, infinite frequency gain, and cutoff frequency. Identify the type of gain response. (b) Sketch the straight-line approximation of the gain response. (c) Calculate the gain at w = 0.25wc, 0.5wc, and wc. (d) Use MATLAB to plot the Bode magnitude gain response of the circuit. Validate your answers for part (c).

Problem 5. Find the transfer function Ty(s) = V₂(s)/V₁(s) of the circuit in Figure 5. (a) Find the de gain, infinite frequency gain, and cutoff frequency. Identify the type of gain response. (b) Sketch the straight-line approximation of the gain response. (c) Calculate the gain at w = 0.25wc, 0.5wc, and wc. (d) Use MATLAB to plot the Bode magnitude gain response of the circuit. Validate your answers for part (c).

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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Question

help on part d

Problem 5. Find the transfer function Tv(s) = V₂(s)/V₁(s) of the circuit in Figure 5.
(a) Find the de gain, infinite frequency gain, and cutoff frequency. Identify the type of gain
response.
(b) Sketch the straight-line approximation of the gain response.
(c) Calculate the gain at w = 0.25wc, 0.5wc, and wc.
(d) Use MATLAB to plot the Bode magnitude gain response of the circuit. Validate your answers
for part (c).
470 Ω
v₁(t) 50 mH
470 ΩΣ
Figure 5:
v₂(t)

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