I need a handwritten solution from the expert. Thank you. Q. For the self-bias network of Fig.2, where; p = (-3) V, Inssra 40 k. VDD = 20 V, RGDetermine the following: Vaso, Ino, Rs. gm, and Rp.= 10 M2, 4,= 12 mA and,(-10), and Veso is one-third of Vp.C₁-VIDRp C₂неRGRS20אFigure 2Q.. Design a voltage-divider bias network using a depletion-type MOSFET with Inss= 10 mA and Vp = (-4 V) to have a Q-point at Ing = 2.5 mA using a supply of 24 V.In addition, set VG = 4V and use Rp=2.5Rs with R, = 22 MQ. Use standard values.

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Answered: Q. For the self-bias network of Fig.2,…

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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Question 1: For the network given in Fig-01; (From the datasheet of the Zener Diode (1N4744A), Vz=25V, Iz=13mA, Izk=0.37mA, and Zz=192) a) Determine Vout at Izk and at IzK? b) Calculate the value of R that should be used? c) Determine the minimum value of R1, to ensure that the Zener diode is in the "ON" state. R VOUT VIN IN4744A RL 24 V
12:45 ..l 491 33 Q.No.3 (2+2 Points) a) Differentiate between JFET and MOSFET transconductance curves. b) What is main difference between BJT and field effect transistors? Define and explain threshold voltage and pinch off voltage. Answer: Q.No.4 (04 Points) Draw the equivalent circuit for summing amplifier and voltage amplifier. Answer: Q. No. 5 (04 Points) Given Inss=12mA and V,= -4V. Sketch the drain and transconductance curve for Ves = +2V, +1V, OV -1V, -2V, -3V and -4V. Answer:
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At any point on the characteristics the product of VCE and IC must be equal to 300 mW. If we choose IC to be the maximum value of 50 mA and substitute into the relationship above, we obtain VCE=? VCEIC = 300 mW a. Reverse bias (J1) and Forward bias (J2) b. Forward bias (J1) and Reverse bias (J2) c.Reverse bias (J1) and Reverse bias (J2) d. Forward bias (J1) and Forward bias (J2)
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