(off) 13. If a 50 mV rms input signal is applied to the amplifier in Figure 9-60, what is the peak-to-peak output voltage? gm = 5000 µS.
(off) 13. If a 50 mV rms input signal is applied to the amplifier in Figure 9-60, what is the peak-to-peak output voltage? gm = 5000 µS.
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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Transcribed Image Text:14. If a 1500 N load is ac coupled to the output in Figure 9–60, what is the resulting output vk
(rms) when a 50 mV rms input is applied? gm = 5000 µS.
AMPLIFIERS AND SWITCHING CIRCUITS
%3D
VDD
+12 V
FIGURE 9-60
Multisim and LT Spice file circuits
are identified with a logo and are in
T Spice
1.5 kN
V.
the Problems folder on the website.
Filenames correspond to figure num-
10 µF
bers (e.g., FGM09-60 or FGS09-60).
Vin 어
0.1 µF
10kN
RG
1.0 kN
1 µF
10 MQ
15. Determine the voltage gain of each common-source amplifier in Figure 9–61.
VDD
VDD
A6+
MULLIST
T Spice
RD
2.2 k.
C2
RD
1.2 k
V.
0.1 µF
1 µF
RL
8m = 3.8 mS
22 k2
%3D
V.
0.1 µF
8m = 5.5 mS
0.1 µF
RG
RG
UYOI
4.7 MQ
C2
0.1 µF
10 MQ
U 095
두 두
(a)
(b)
16. Draw the de and ac equivalent circuito
Transcribed Image Text:두
(c)
두
두
(a)
9. Identify each characteristic curve in Figure 9-59 by the type of FET that it represents.
-VGS
-VGS
tve
+VGS
(c)
(a)
(9)
10. Refer to the JFET transfer characteristic curve in Figure 9-16(a) and determine the peak-to-
peak value ofI, when Ve, is varied t1.5 V about its Q-point value.
11. Repeat Problem 10 for the curves in Figure 9-16(b) and Figure 9-16(c).
) =-7 V and Ipss = 8 mA.
12. Given that In = 2.83 mA in Figure 9-60, find Vps and VGS. VGS(off)
13. If a 50 mV rms input signal is applied to the amplifier in Figure 9-60, what is the peak-to-peak
output voltage? gm = 5000 µS.
of
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