4. If the emitter bypasses capacitor in Figure (1) is shorted, the voltage gain will increase. (a). The voltage gain will renain the same. (c) The transistor will saturate. (d) None of the above.

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
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main
R,
RL
to polnt 8
Uoc = 10 V
4.7 kA
10 ks2
C1
I pF
Y2
Yi
Rparl 1
• A
0.22 1F
1 kn
Uoul
1k n
Rparl 2
1=1 kHz
100 (2
Uin= 11 x Un
R2
R2
47 2
30 mV
10 n
Vé hps Typo 9118 2
Fig.1
Transcribed Image Text:main R, RL to polnt 8 Uoc = 10 V 4.7 kA 10 ks2 C1 I pF Y2 Yi Rparl 1 • A 0.22 1F 1 kn Uoul 1k n Rparl 2 1=1 kHz 100 (2 Uin= 11 x Un R2 R2 47 2 30 mV 10 n Vé hps Typo 9118 2 Fig.1
5. If the load resistor RL in the circuit of Figure (1) is made larger, the amplifier
4. If the emitter bypasses capacitor in Figure (1) is shorted,
the voltage gain will increase.
(a). The voltage gain will renain the same.
(c) The transištor will saturate.
(d) None of the above.
voltage gain will
(a) Increase.
(b) Decrease.
(c) Remain essentially the same.
a Find the voltage gain, the current gain, the upper cut off frequency for all
circuit.
Transcribed Image Text:5. If the load resistor RL in the circuit of Figure (1) is made larger, the amplifier 4. If the emitter bypasses capacitor in Figure (1) is shorted, the voltage gain will increase. (a). The voltage gain will renain the same. (c) The transištor will saturate. (d) None of the above. voltage gain will (a) Increase. (b) Decrease. (c) Remain essentially the same. a Find the voltage gain, the current gain, the upper cut off frequency for all circuit.
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