Use Exact Analysis
Use 4 decimal places, no commas.
a. VCC = 15V
b. R1 = 55 kΩ
c. R2 = 15 kΩ
d. RC = 2.5 kΩ
e. RE = 1.5 kΩ
f. RS = 15 Ω
g. RL = 500 Ω
h. βDC = 50
i. βac = 100
Single-stage, voltage-divider biased, common-emitter with
**C1 and C2 are coupling capacitors. C3 is bypass capacitor
Given:
A. VB = [a] V ;
B. VE = [b] V ;
C. IE = [c] mA ;
D. VCE = [d] V ;
E. VC = [e] V ;
F. re' = [f] ohms ;
G. Rin(base) = [g] kohms ;
H. Rin(tot) = [h] kohms ;
I. Voltage gain (Av) = [i] ;
J. Attenuation (Att) = [j] ;
K. Overall voltage gain (AVT) = [k] ;
L. IL/Ic = [l] ;
M. Ic/Ib = [m] ;
N. Ib/Is = [n]
O. Overall current gain (AIT) = [o] ;
P. Overall power gain (APT) = [p]
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Use 4 decimal places, no commas.
Given:
a. VCC = 15V
b. R1 = 55 kohms
c. R2 = 15 kohms
d. RE = 1.5 kohms
e. Rs = 14 ohms
f. RL = 500 ohms
g. DC Beta = 50
h. AC Beta = 100
Single-stage, voltage-divider biased, common collector amplifier
with
**C1 and C2 are coupling capacitors. C3 is bypass capacitor
A. VTH =[a] V
B. RTH =[b] kohms
C. IE =[c] mA
D. VC =[d] V
E. VCE =[e] V
F. re’ =[f] ohms
G. Rin(base) =[g] kohms
H. Rin(tot) =[h] kohms
I. Voltage gain (Av) = [i]
J. Attenuation (Att) = [j]
K. Overall voltage gain (AVT) = [k]
L. IL/Ie = [l]
M. Ie/Ib = [m]
N. Ib/Is = [n]
O. Overall current gain (AIT) = [o]
P. Overall power gain (APT) = [p]
Use Exact Analysis Use 4 decimal places, no commas. a. VCC = 15V b. R1 =...
USE EXACT ANALYSIS Use 4 decimal places, no commas. Given: Single-stage, voltage-divider biased, common collector amplifier with a. VCC = 15V b. R1 55 kohms c. R2 15 kohms d. RE 1.5 kohms e. Rs = 14 ohms f. RL = 500 ohms g. DC Beta = 50 h, AC Beta = 100 *C1 and C2 are coupling capacitors. C3 is bypass capacitor Required: A. VTH =[a] V B. RTH =[b] kohms C. IE [c] mA D. VC =[d] V...
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