Task 3a. Explain the operating principle of a BJT.b.For the given circuit below, the collector to emitter voltage of the BJT is 5.2V. Determine thecurrent gain (B) of the transistor.BTEC100 kn+12V1kQILoughboroughCOLLEGE-

BJT is a bi directional three terminal device

Answered: a. Explain the operating principle of a…

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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In saturation, what statement correctly describes the operation of a BJT transistor? Select one: a. No current flows through the transistor. Ob. There is a linear relationship between collector and base current. There is a nonlinear relationship between collector current and base current. d. There is an inverted but linear relationship between collector and base current. C.
c) Figure 2.3 shows the circuit diagram of a typical npn BJT common emitter amplifier. The values of RB1-30 kOhm, RB2=10.XY kOhm, Rc-3.XY kOhm, Ic=2.XY mA and Vcc=24 V. If the transistor current gain 3 = 50 determine using the full analysis and assuming VBE = 0.7 V the value of RE, hence identify the location of the Q-point (Ic, VCE, IB and VBE). Now sketch the AC circuit model of this amplifier and determine the value of the ac open circuit voltage gain Av and the ac short circuit current gain Ai. (Assume that Vth = 26 mV). Vin RB1 Cin lin RB2 -10 Rc VB RE + Vcc Vc Cout VE www li Figure 2.3 Vout Ce ¡out x=1 y=7
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a. Explain the operating principle of a BJT. b. For the given circuit below, the collector to emitter voltage of the BJT is 5.2V. Determine the current gain (B) of the transistor. 100 kn +12V 1kQ I