1) In the table below, enter the magnitude of the transfer function in dB at given frequencies (do not enter units) f1 = 2 kHz; M1 = f2 = 10 kHz; M2 | f3 = 80 kHz; M3 D Submit Answer Tries 0/5 2) In the table below, enter the phase of the transfer function in degrees at given frequencies (do not enter units) f1 = 2 kHz; Ph1 =| f2 = 10 kHz; Ph2 = %3D f3 = 80 kHz: Ph3 =

Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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R1
R2
L1
Vin
C1
Vout
The circuit above has the following parameters:
R1=15 Ohm, R2=7 Ohm, L1=0.3 mH ("m"="milli"), L2=0.06 mH, C1=0.9 uF ("u"="micro");
Notes:
-- The frequency sweep must cover the range from 1 kHz to 100 kHz
The frequency sweep for the graphs must use no less than 100 frequency points
-- The frequency axis must use decimal logarithmic scale
The magnitude must be plotted using decibel units
-- The phase must be plotted using degree units
1) In the table below, enter the magnitude of the transfer function in dB at given frequencies (do not enter units)
f1 = 2 kHz; M1 =
f2 = 10 kHz; M2 =
f3 = 80 kHz; M3 =
Submit Answer
Tries 0/5
2) In the table below, enter the phase of the transfer function in degrees at given frequencies (do not enter units)
f1 = 2 kHz;
Ph1 =
f2 = 10 kHz; Ph2 =
f3 = 80 kHz; Ph3 =
Transcribed Image Text:R1 R2 L1 Vin C1 Vout The circuit above has the following parameters: R1=15 Ohm, R2=7 Ohm, L1=0.3 mH ("m"="milli"), L2=0.06 mH, C1=0.9 uF ("u"="micro"); Notes: -- The frequency sweep must cover the range from 1 kHz to 100 kHz The frequency sweep for the graphs must use no less than 100 frequency points -- The frequency axis must use decimal logarithmic scale The magnitude must be plotted using decibel units -- The phase must be plotted using degree units 1) In the table below, enter the magnitude of the transfer function in dB at given frequencies (do not enter units) f1 = 2 kHz; M1 = f2 = 10 kHz; M2 = f3 = 80 kHz; M3 = Submit Answer Tries 0/5 2) In the table below, enter the phase of the transfer function in degrees at given frequencies (do not enter units) f1 = 2 kHz; Ph1 = f2 = 10 kHz; Ph2 = f3 = 80 kHz; Ph3 =
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