For the given circuit, Vcc = 18 volts, RB = 500 KN, RC = 9 KN and B = 180. Assume Transistor is Silicon, VBE=0.7 volts. %3D %3D +Vc Rc RB VCE VBE a. Name the type of Biasing in above circuit. ak] b. Compute for the base current Q-point, IBQ (in Amperes) [ c. Compute for the collector current Q-point, Icq (in Amperes) I M d. Compute for the collector-to-emitter voltage, VCEQ (in Volts) MA Note: Upload your answers as PDF file in the Moodle Final Exam submission link. 1. Base current Q-point in amperes is 2. Collector current Q-point in amperes is 3. Collector to Emitter Voltage Q-point in amperes is

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For the given circuit, Vcc = 18 volts, RB = 500 KN, RC = 9 KN and B = 180. Assume Transistor is Silicon, VBE=0.7 volts.
%3D
%3D
+Vc
Rc
RB
VCE
VBE
a. Name the type of Biasing in above circuit. ak]
b. Compute for the base current Q-point, IBQ (in Amperes) [
c. Compute for the collector current Q-point, Icq (in Amperes) I M
d. Compute for the collector-to-emitter voltage, VCEQ (in Volts) MA
Note: Upload your answers as PDF file in the Moodle Final Exam submission link.
1. Base current Q-point in amperes is
2. Collector current Q-point in amperes is
3. Collector to Emitter Voltage Q-point in amperes is
Transcribed Image Text:For the given circuit, Vcc = 18 volts, RB = 500 KN, RC = 9 KN and B = 180. Assume Transistor is Silicon, VBE=0.7 volts. %3D %3D +Vc Rc RB VCE VBE a. Name the type of Biasing in above circuit. ak] b. Compute for the base current Q-point, IBQ (in Amperes) [ c. Compute for the collector current Q-point, Icq (in Amperes) I M d. Compute for the collector-to-emitter voltage, VCEQ (in Volts) MA Note: Upload your answers as PDF file in the Moodle Final Exam submission link. 1. Base current Q-point in amperes is 2. Collector current Q-point in amperes is 3. Collector to Emitter Voltage Q-point in amperes is
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