4. AJFET Voltage Amplifier has an input sinusoidal signal of 5 mV, supply voltage VDD = +16V, Isig = 10 kn, RG = 10 MM, RD = 2 ks, Rs = 1 ks, load resistance of 3.3km, output drain resistance of 25 k2, coupling capacitors have a value of 1 µF, and a bypass capacitor value of 20uF. Calculate the forward transconductance using the DC conditions given (IDss = 8 mA and Vp = -4V) and compute the total input impedance, total output impedance, and the total voltage gain using the gm transistor model. Vs sig CG HH 20 $G VDD Rs Cc = "HA Cs MI R₁ controlled a. Setup the small signal analysis for the transistor amplifier using the gm model. b. Solve for the total voltage gain, amplifier input impedance, and amplifier output impedance when the output drain resistance is 25 k using the gm model.

4. AJFET Voltage Amplifier has an input sinusoidal signal of 5 mV, supply voltage VDD = +16V, Isig = 10 kn, RG = 10 MM, RD = 2 ks, Rs = 1 ks, load resistance of 3.3km, output drain resistance of 25 k2, coupling capacitors have a value of 1 µF, and a bypass capacitor value of 20uF. Calculate the forward transconductance using the DC conditions given (IDss = 8 mA and Vp = -4V) and compute the total input impedance, total output impedance, and the total voltage gain using the gm transistor model. Vs sig CG HH 20 $G VDD Rs Cc = "HA Cs MI R₁ controlled a. Setup the small signal analysis for the transistor amplifier using the gm model. b. Solve for the total voltage gain, amplifier input impedance, and amplifier output impedance when the output drain resistance is 25 k using the gm model.

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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