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(Example 4.13) Consider a common-emitter circuit using a BJT having Is = 10-15 A, Rc=6.8 k2, and Vcc= 10 V. a) Determine Ic and VBE required to have VCE=3.2 V. b) Find A, at this bias point. If Ube= 5 sin(@t) mV is superimposed on VBE, find the amplitude of the output sine-wave (assume linear operation).

(Example 4.13) Consider a common-emitter circuit using a BJT having Is = 10-15 A, Rc=6.8 k2, and Vcc= 10 V. a) Determine Ic and VBE required to have VCE=3.2 V. b) Find A, at this bias point. If Ube= 5 sin(@t) mV is superimposed on VBE, find the amplitude of the output sine-wave (assume linear operation).

Introductory Circuit Analysis (13th Edition)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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(Example 4.13) Consider a common-emitter circuit using a BJT having Is = 10-15 A, Rc=6.8 kn, and Vcc= 10 V. a) Determine Ic and VBE required to have VCE=3.2 V. b) Find A, at this bias point. If Ube= 5 sin(@t) mV is superimposed on VBE, find the amplitude of the output sine-wave (assume linear operation). b) UBE 10 V ich 6.8 ΚΩ O + VCE= 3.2 V
Transcribed Image Text:(Example 4.13) Consider a common-emitter circuit using a BJT having Is = 10-15 A, Rc=6.8 kn, and Vcc= 10 V. a) Determine Ic and VBE required to have VCE=3.2 V. b) Find A, at this bias point. If Ube= 5 sin(@t) mV is superimposed on VBE, find the amplitude of the output sine-wave (assume linear operation). b) UBE 10 V ich 6.8 ΚΩ O + VCE= 3.2 V
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