FN.Q4 – For the voltage-divider bias configuration of figure, the values of Vcc=24V, the resistances Ra1=125kQ, Ra:=45kQ, Rc=1,8kO, Rz=0,875kQ and p-200 are given (VBE=0,7V). Determine in the circuit: Vcc a) IBQ b) IcQ c) VczQ RC d) IcMax RB1 e) VcQ |Veto RB2 RE
FN.Q4 – For the voltage-divider bias configuration of figure, the values of Vcc=24V, the resistances Ra1=125kQ, Ra:=45kQ, Rc=1,8kO, Rz=0,875kQ and p-200 are given (VBE=0,7V). Determine in the circuit: Vcc a) IBQ b) IcQ c) VczQ RC d) IcMax RB1 e) VcQ |Veto RB2 RE
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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IN ALL CALCULATIONS AND THE USE OF THE FOUND VALUES IN THE EQUATIONS, THE PROCESS WILL BE MADE WITH 3 DIGGERS AFTER THE COMMA.
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Transcribed Image Text:FN.Q4 - For the voltage-divider bias configuration of figure, the values of Vcc=24V, the resistances Re1=125KQ,
Re=45KQ, Rc=1,8kQ Rz=0,875KQ and p-200 are given (VBE=0,7V). Determine in the circuit:
a) IBQ
b) IcQ
Vcc
c) VczQ
RC
d) ICMAX
RBI
tco
e) VoQ
Vc
RB2
RE
VcQ =
ICMAX =
VczQ=
Icq =
IBQ
%3D
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