Draw the schematic circuit for a resistively loaded NMOS inverter and the relative voltage transfer characteristic where the different regions of operation of the transistor are shown.
Draw the schematic circuit for a resistively loaded NMOS inverter and the relative voltage transfer characteristic where the different regions of operation of the transistor are shown.
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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Transcribed Image Text:Q2
Draw the schematic circuit for a resistively loaded NMOS inverter and the
relative voltage transfer characteristic where the different regions of operation
of the transistor are shown.
(a)
Write the finite static power dissipation P for a resistively loaded NMOS
mverter. What is the main orgin of P?
(b)
Draw the schematic of a CMOS inverter with a load capacitance of 40 pF
attached to the output. Calculate the dynamic power dissipation, if there is a
square wave input signal switching at 25 MHz with an amplitude of Vpo=5 V.
For the calculation consider Vo= Vpo and V = 0.
(c)
%3D
DD
Transcribed Image Text:chematic
mvertes of th a
cntos
load
capeeftance
a Hach
to outpat
Pmos
Suitching
Vout
Vead
→Vdd o
Nmas
Vold
GND
Diret path
yramie
Curent-
Powes
důsipatfon &
Paun = * VDD*
[o to !
transition
Here
Giren that
CL = 40PF
Hor. high state
40 xto12
VDp =5Y, J=85MAZ
VH = VDD 2 Ve =0
Equialent
Here
Pagn=
x(5)x (25x105) LOw to high
transition
O.025W
VOD
CL
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