assume that VBEon ~0.7V when the transistor is on. VCEsat ~ 0.2V when the transistor is in the saturation region. V1 R1 W 10k VCE In the above circuit, the forward active region current gain is ẞ = 100. Assuming VCE > 0, what is the minimum V1 such that the transistor is on. Sketch the collector current vs. the collector emitter voltage, (Ic vs. VCE) for voltages V1 = {1, 2, 3}V. On your plot, indicate the forward active and saturation regions. Label the collector current when it is in the forward active region.
assume that VBEon ~0.7V when the transistor is on. VCEsat ~ 0.2V when the transistor is in the saturation region. V1 R1 W 10k VCE In the above circuit, the forward active region current gain is ẞ = 100. Assuming VCE > 0, what is the minimum V1 such that the transistor is on. Sketch the collector current vs. the collector emitter voltage, (Ic vs. VCE) for voltages V1 = {1, 2, 3}V. On your plot, indicate the forward active and saturation regions. Label the collector current when it is in the forward active region.
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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This is a practice problem from my Introduction to Electronics course.
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Thank you for your assistance.
Transcribed Image Text:assume that VBEon ~0.7V when the transistor is on.
VCEsat
~
0.2V when the transistor is in the saturation region.
V1
R1
W
10k
VCE
In the above circuit, the forward active region current gain is ẞ = 100.
Assuming VCE > 0, what is the minimum V1 such that the transistor is on.
Sketch the collector current vs. the collector emitter voltage, (Ic vs. VCE) for
voltages V1 = {1, 2, 3}V. On your plot, indicate the forward active and saturation
regions. Label the collector current when it is in the forward active region.
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