Consider the series in the following image with R2 = 22 kN and Rg = 3.9 kN Vcc = 20 V Rc R1 4.7 k2 220 k2 Vc Cc VB V, oHH Cc B= 180 RL 100 ka Rz RE CE based on the figure above, If the R2 value is changed while the other values remain, the BJT can start operating in the saturation region. Calculate and determine R2 which causes the BJT to be in the saturation а. region (assuming VCE = 0)! b. If the RE value is changed while the other values are fixed, the maximum current that can flow to the collector (Ic-Max) will change. Calculate and determine the Rg which increases Ic-Max= 3.5 mA (assuming VCE = 0)!
Consider the series in the following image with R2 = 22 kN and Rg = 3.9 kN Vcc = 20 V Rc R1 4.7 k2 220 k2 Vc Cc VB V, oHH Cc B= 180 RL 100 ka Rz RE CE based on the figure above, If the R2 value is changed while the other values remain, the BJT can start operating in the saturation region. Calculate and determine R2 which causes the BJT to be in the saturation а. region (assuming VCE = 0)! b. If the RE value is changed while the other values are fixed, the maximum current that can flow to the collector (Ic-Max) will change. Calculate and determine the Rg which increases Ic-Max= 3.5 mA (assuming VCE = 0)!
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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