8. Where do you bias (which region) a BJT transistor to work it as an amplifier. In the adjacent circuit, are changed to Vcc= 3.3 V, VBB = 2V, Rc = 3.2 k2, and RB = 430 KS2. The transistor parameters are ß = 150 and VBE = 0.7 V. Calculate IB, Ic, VCE, and the power dissipated in the transistor. RB = 580 k VBB 1.5 V o www IB V+ = 5 V VEB + VEC
8. Where do you bias (which region) a BJT transistor to work it as an amplifier. In the adjacent circuit, are changed to Vcc= 3.3 V, VBB = 2V, Rc = 3.2 k2, and RB = 430 KS2. The transistor parameters are ß = 150 and VBE = 0.7 V. Calculate IB, Ic, VCE, and the power dissipated in the transistor. RB = 580 k VBB 1.5 V o www IB V+ = 5 V VEB + VEC
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Transcribed Image Text:8. Where do you bias (which region) a BJT
transistor to work it as an amplifier. In the
adjacent circuit, are changed to Vcc= 3.3 V,
VBB = 2V, Rc = 3.2 k2, and RB = 430 k2. The
transistor parameters are ß = 150 and VBE = 0.7
V. Calculate IB, IC, VCE, and the power dissipated
in the transistor.
Rg= 580 kQ
www
IB
VBB= 1.5 V o-
V+=5 V
VEB
VEC
Rc
•}|¹c
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