17. Determine the critical frequencies associated with the low-frequency response of the FET am- plifier in Figure 10-60. Indicate the dominant critical frequency and draw the Bode plot. 18. Find the voltage gain of the amplifier in Figure 10-60 at the following frequencies: fo 0.If, and 10f, where f, is the dominant critical frequency. VDD +15 V Ciss = 10 pF Css = 4 pF IGss = 50 nA @ VGs =-10 V VGS(of) = -6 V IDss = 15 mA RD 560 N 0.005 µF 0.005 µF RL 10 kN R, 600 N RG 10 MN V. FIGURE 10-60
17. Determine the critical frequencies associated with the low-frequency response of the FET am- plifier in Figure 10-60. Indicate the dominant critical frequency and draw the Bode plot. 18. Find the voltage gain of the amplifier in Figure 10-60 at the following frequencies: fo 0.If, and 10f, where f, is the dominant critical frequency. VDD +15 V Ciss = 10 pF Css = 4 pF IGss = 50 nA @ VGs =-10 V VGS(of) = -6 V IDss = 15 mA RD 560 N 0.005 µF 0.005 µF RL 10 kN R, 600 N RG 10 MN V. FIGURE 10-60
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:17. Determine the critical frequencies associated with the low-frequency response of the FET am-
plifier in Figure 10-60. Indicate the dominant critical frequency and draw the Bode plot.
18. Find the voltage gain of the amplifier in Figure 10-60 at the following frequencies: fo 0.Ife
and 10f, where f. is the dominant critical frequency.
VDD
+15 V
Ciss = 10 pF
Css = 4 pF
IGss = 50 nA @ VGS =-10 V
V onti
%3D
%3D
755
RD
%3D
0.005 μF
VGS(of) = -6 V
IDSS = 15 mA
560 N
%3D
0.005 µF
RL
10 kN
R,
600 N
RG
10 MN
FIGURE 10-60
1-
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