Q2Draw the schematic circuit for a resistively loaded NMOS inverter and therelative voltage transfer characteristic where the different regions of operationof the transistor are shown.(a)Write the finite static power dissipation P for a resistively loaded NMOSmverter. What is the main orgin of P?(b)Draw the schematic of a CMOS inverter with a load capacitance of 40 pFattached to the output. Calculate the dynamic power dissipation, if there is asquare wave input signal switching at 25 MHz with an amplitude of Vpo=5 V.For the calculation consider Vo= Vpo and V = 0.(c)%3DDD chematicmvertes of th acntosloadcapeeftancea Hachto outpatPmosSuitchingVoutVead→Vdd oNmasVoldGNDDiret pathyramieCurent-Powesdůsipatfon &Paun = * VDD*[o to !transitionHereGiren thatCL = 40PFHor. high state40 xto12VDp =5Y, J=85MAZVH = VDD 2 Ve =0EquialentHerePagn=x(5)x (25x105) LOw to hightransitionO.025WVODCL

Resistive loaded Inverter- An enhancement type NMOS inverter acts as a transistor. The load is…

Answered: Draw the schematic circuit for a…

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

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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