For circuits (a) and (b) in Figure 9 - 2, R = 1 kN, C = 0.1 µF. For circuit (c) in Figure 9 - 2. R1 = 1 k2, R2 = 10 k, C1 = 0.01 µF, C2 = 0.0056 µF. 1. Derive the transfer function. 2. Plot or sketch the magnitude vs. frequency and the phase vs. frequency curves in a linear or log scale. 3. Indicate if the circuit is a low pass, high pass, band pass or band reject filter.
For circuits (a) and (b) in Figure 9 - 2, R = 1 kN, C = 0.1 µF. For circuit (c) in Figure 9 - 2. R1 = 1 k2, R2 = 10 k, C1 = 0.01 µF, C2 = 0.0056 µF. 1. Derive the transfer function. 2. Plot or sketch the magnitude vs. frequency and the phase vs. frequency curves in a linear or log scale. 3. Indicate if the circuit is a low pass, high pass, band pass or band reject filter.
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Transcribed Image Text:For circuits (a) and (b) in Figure 9 – 2, R = 1 k2, C = 0.1 µF. For circuit (c) in Figure g - 2, R1 = 1 kQ, R2 = 10 kN, C1 = 0.01 µF,
C2 = 0.0056 µF.
1. Derive the transfer function.
2. Plot or sketch the magnitude vs. frequency and the phase vs. frequency curves in a linear or log scale.
3. Indicate if the circuit is a low pass, high pass, band pass or band reject filter.
Transcribed Image Text:+
R
R
Vout
Vout
Vin
Vin
(b)
(a)
R1
R2
C2
Vout
Vin
(c)
Figure 9 - 2 Circuits
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