A single-stage, voltage-divider biased, NPN- Common Emitter amplifier has the following parameters below. Solve for the overall current gain, IL/ls if RE isbypassed by C2. Use 4 decimal places. Do not include the unit in the final answer.Vc=15VVs= 1mv, rs= 10nBDC = Bac = 150R1 = 60k2 R2 = 10kNRc = 2knRE = 1k0RL = 1ka%3Dwith C1 &C3 as coupling capacitors to connect Vs and RLwhile C2-a bypass capacitorBDC = Bac = 150R1 = 60kn R2 = 10kaRC = 2knRE = 1k0RL = 1k0with C1 &C3 as coupling capacitors to connect Vs and RLwhile C2-a bypass capacitor

Given the circuit: We need to find the overall current gain iLis

Answered: A single-stage, voltage-divider biased,…

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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For the transistor in a circuit shown in Figure 3. B= 90 and Va = 150 V. v*= +5 V I0.5 mA "ao Ca 0.5 k2 V=-5 V Figure 3 (a) Calculate the small-signal parameters gm, Iz, and ro. (b) Draw the small-signal equivalent eircuit. (c) Determine the small-signal voltage gain. ww
ELECTRONICS LAB COURSE
Q/ 1. Derive a mathematical expression to determine the stability factors of fixed-bias circuit?
Q1) Determine whether the transistor in figure(1) is in saturation or not. Assume Veran 0.2 V.
A. Detemine the value of the collector resistor in an npn transistor amplifier with Ppc = 250, VBB = 2.5 V, Vcc = 9 V, VCE = 4 V, and Rg = 100 k2. B. Detemine Icsat) for the transistor in below Figure. What is the value of IB necessary to produce saturation? What minimum value of VIN is necessary for saturation? Assume %3D VCE(sat) = 0 V. +5 V 10 kN Rg VINO BDc = 150 1.0 MN
Q4. For the circuit shown in Figure Q4: i) What is the type of MOSFET and the amplifier configuration? ii) Find the Q-point (Ip and Vps) iii) What is the device transconductance, gm? iv) What are the voltage gain and output voltage? v) Draw the input /output voltage waveforms showing the phase relationship between them. Be sure to label them properly. +20V IDON = 15 mA@ VcsON = 6V VGSTH = 1V 1kQ Rp C2 10M2 Ro1 out Vin 3.3MQ Ra, 47003 Rs 50mV Figure Q4
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4. A Darlington transistor is essentially an array of two transistors connected as shown below. Assume both transistors follow our simple model with a current gain of B=100. Determine the maximum value of R2 that will just saturate the transistors, and pass full current through the load resistance R1. v2 V2 R2 PULSE (0 5 0) Q2 NPN R1 10 Q1 NPN V1 24
(ii) Calculate the RB, Rc, and the minimum power rating of the transistor (Note: the actual power rating should be greater).
Q5(a) Figure Q5(a) shows a basic series voltage regulator circuit. VIN VOUT RREF Q1 U1 R $20 k2 Di R2 30 k2 Figure Q5(a) (i) Calculate the output voltage, VoUT if VIN = 50 V and voltage drop across D, = 6.2 V. (ii) Illustrate a circuit diagram for overload protection between transistor Q1 and the load. (iii) Based on the answer in Q5(a)(ii), calculate the overload current ILmax). (b) Figure Q5(b) shows a voltage regulator. +35 V LM 317 +Vout R1 Vref 220 2 Iref C3 C1 TR2 TADJ C2 R2 5 kn Figure Q5(b) (i) Determine the maximum and minimum output voltage for the voltage regulator in Figure Q5(b), if IADJ = 25 µA and Vref = 0.9 V. (ii) Determine the output voltage of the regulator if R2 is set to 4 kN.
In the circuit shown in the figure, the internal resistance of a voltage source is given as 3 ohms. Load values are such that R = 20 ohms and X = 20 ohms. The effective value of the VAB voltage at the load ends is 220 V. (Frequency is 50 Hz). What is the active power consumed by the load? (Do not take into account 3 ohms in calculations)
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