III An n-channel MOSFET ID versus VDS set of characteristics is shown below. A common-sourceresistively loaded amplifier uses this MOSFET. The resistive load RL = 1,000 ohms and the drainpower supply (VDD) = 3 volts.(a) Draw the load line over the l-V characteristics shown immediately below..(b) What is the slope of the resistive load line?VDD =3 volts6 mA5 mA -+R.4 mA +3 mA -t2 mA1 mA3 V4 V5 VVps III An n-channel MOSFET ID versus VDS set of characteristics is shown below.resistively loaded amplifier uses this MOSFET. The resistive load RL = 1,000 ohms and the drainpower supply (VDD) = 3 volts.(a) Draw the load line over the l-V characteristics shown immediately below.(b) What is the slope of the resistive load line?common-sourceVop 3 volts6 mA +5 MA +4 mA +3 mA +1 mA1vVos

Answered: II An n-channel MOSFET ID versus VDS…

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

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Question

III An n-channel MOSFET ID versus VDS set of characteristics is shown below. A common-source
resistively loaded amplifier uses this MOSFET. The resistive load RL = 1,000 ohms and the drain
power supply (VDD) = 3 volts.
(a) Draw the load line over the l-V characteristics shown immediately below..
(b) What is the slope of the resistive load line?
VDD =3 volts
6 mA
5 mA -+
R.
4 mA +
3 mA -t
2 mA
1 mA
3 V
4 V
5 V
Vps

III An n-channel MOSFET ID versus VDS set of characteristics is shown below.
resistively loaded amplifier uses this MOSFET. The resistive load RL = 1,000 ohms and the drain
power supply (VDD) = 3 volts.
(a) Draw the load line over the l-V characteristics shown immediately below.
(b) What is the slope of the resistive load line?
common-source
Vop 3 volts
6 mA +
5 MA +
4 mA +
3 mA +
1 mA
1v
Vos

Expert Solution

Step 1

III) The given data of the question is as follows:

RL=100 ohms, VDD=3 V

By applying KVL equation in this circuit:

$V_{D D} - I_{D} R_{L} - V_{D S} = 0 V_{D S} = V_{D D} - I_{D} R_{L} - i) N o w p u t I_{D} = 0 (O n x a x i s) V_{D S} = V_{D D} = 3 V P u t, V_{D S} = 0 I_{D} = \frac{V_{D D}}{R_{L}} = \frac{3}{1000} = 3 m A$

Step 2

a) The I-V characteristics of the question is shown below:

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