Introductory Circuit Analysis (13th Edition)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN: 9780133923605
Author: Robert L. Boylestad
Publisher: PEARSON
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Question

From using the values from the image with the circuit I found that wc or the corner frequency would be R/L or 1315789.474 rad/s. But I don't understand how to do the bode plot for the high-pass circuit

Using the graph windows below, generate Bode plots for the magnitude and phase of the transfer function H. The horizontal axis (omega-axis) has logarithimc scale and is labeled using normalized units: (om/omc). Make sure that your plot spreads over the entire graph range: from x<=-3.25 to x>=+3.25. Drag the blue dots on the curve to obtain the correct coordinates of the Bode plot. Drag or rotate the black dots (handles) to change the corner shapes of the curve. Generate Bode plot for the magnitude of transfer function. 8어-M, dB 40- 20어 Ig(om/omc) 3 -20- -40- -8어
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Transcribed Image Text:Using the graph windows below, generate Bode plots for the magnitude and phase of the transfer function H. The horizontal axis (omega-axis) has logarithimc scale and is labeled using normalized units: (om/omc). Make sure that your plot spreads over the entire graph range: from x<=-3.25 to x>=+3.25. Drag the blue dots on the curve to obtain the correct coordinates of the Bode plot. Drag or rotate the black dots (handles) to change the corner shapes of the curve. Generate Bode plot for the magnitude of transfer function. 8어-M, dB 40- 20어 Ig(om/omc) 3 -20- -40- -8어
R1 Vs L1 Out The circuit shown above has the following parameters. R1 = 50 Ohm; L1 = 38 uH; Find the corner frequency omc of the circuit in rad/s (do not enter the units).
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Transcribed Image Text:R1 Vs L1 Out The circuit shown above has the following parameters. R1 = 50 Ohm; L1 = 38 uH; Find the corner frequency omc of the circuit in rad/s (do not enter the units).
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