. Draw the symbol of NPN and PNP transistor. . Draw the symbol of enhancement and depletion N channel MOSFET. -. Draw the transistor biasing in Active, Saturation and cut off mode. 1. In a common base configuration, collector current is 0.85mA and base current is 0.03mA.Calculate the value of a. 5. The Base current is 15µA and B=147 for an NPN transistor. Calculate emitter current. 6. Calculate the value of VcB for the common emitter circuit shown in the figure. Assume the transistor is germanium and B=120. (Hint: VCB=VCE-VBE) Rc 100 2 IB RB 10V = Vcc 10 k2 BE VBB=5V IE
. Draw the symbol of NPN and PNP transistor. . Draw the symbol of enhancement and depletion N channel MOSFET. -. Draw the transistor biasing in Active, Saturation and cut off mode. 1. In a common base configuration, collector current is 0.85mA and base current is 0.03mA.Calculate the value of a. 5. The Base current is 15µA and B=147 for an NPN transistor. Calculate emitter current. 6. Calculate the value of VcB for the common emitter circuit shown in the figure. Assume the transistor is germanium and B=120. (Hint: VCB=VCE-VBE) Rc 100 2 IB RB 10V = Vcc 10 k2 BE VBB=5V IE
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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Cnabie
Ses.
1. Draw the symbol of NPN and PNP transistor.
2. Draw the symbol of enhancement and depletion N channel MOSFET.
3. Draw the transistor biasing in Active, Saturation and cut off mode.
4. In a common base configuration, collector current is 0.85mA and base
current is 0.03mA.Calculate the value of a.
5. The Base current is 15µA and ß=147 for an NPN transistor. Calculate
emitter current.
6. Calculate the value of VcB for the common emitter circuit shown in the
figure. Assume the transistor is germanium and B=120.
(Hint: VCB=VCE-VBE)
RC
100 2
RB
IB
10V
-Vcc
10 k2
BE
VBB=5V
IE
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