Remove the bypass capacitor C2 and repeat part (c). Discuss about the effect of the bypass capacitor on the voltage Vout = Vin = AV =

Introductory Circuit Analysis (13th Edition)
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  1. Remove the bypass capacitor C2 and repeat part (c). Discuss about the effect of the bypass capacitor on the voltage

Vout = Vin = AV =

Part B: Common-Emitter Amplifier and AC Analysis
1) Objectives
a) To construct a common-Emitter Amplifier and analysis its properties.
b) To estimate the voltage gain of a common-emitter amplifier.
c) To investigate the effect of adding a resistive load to voltage gain of the amplifier.
d) To investigate the effect of a bypass capacitor to voltage gain of the amplifier.
2) Parts and Equipment
a) Resistors R1 = 20k2, Rc = 1k2, RE = 2002 and R1 =5kO
b) Resistor R2 based on the selected Q-point in part A.
c) Capacitors, Cı = C3 = 1 µF, C2 = 50µF
d) A DC voltage source, Vcc = 30V
e) An AC voltage source, Vin = 0.01V at 1kHz
f) A BJT transistor with Boc = 100, Buc = 100 and VRE = 0.75V
g) Ammeters and Voltmeters
h) Multisim online simulation software.
Vcc
Rc
C3
R1
Vont.
out
Vin
R1
R2
RE
Figure 2
Transcribed Image Text:Part B: Common-Emitter Amplifier and AC Analysis 1) Objectives a) To construct a common-Emitter Amplifier and analysis its properties. b) To estimate the voltage gain of a common-emitter amplifier. c) To investigate the effect of adding a resistive load to voltage gain of the amplifier. d) To investigate the effect of a bypass capacitor to voltage gain of the amplifier. 2) Parts and Equipment a) Resistors R1 = 20k2, Rc = 1k2, RE = 2002 and R1 =5kO b) Resistor R2 based on the selected Q-point in part A. c) Capacitors, Cı = C3 = 1 µF, C2 = 50µF d) A DC voltage source, Vcc = 30V e) An AC voltage source, Vin = 0.01V at 1kHz f) A BJT transistor with Boc = 100, Buc = 100 and VRE = 0.75V g) Ammeters and Voltmeters h) Multisim online simulation software. Vcc Rc C3 R1 Vont. out Vin R1 R2 RE Figure 2
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