NPTEL - Microelectronics: Devices To Circuits
offered by IIT Roorkee

Public/Government Institute
Estd. 1847

Microelectronics: Devices To Circuits
at
IIT Roorkee
Overview

A comprehensive introduction to Bipolar Junction Transistor, BJT as an Amplifier, and relevant topics like MOS Transistor Basic

Duration	12 weeks
Mode of learning	Online
Credential	Certificate

Microelectronics: Devices To Circuits
at
IIT Roorkee
Highlights

Earn a E- certificate of completion from IIT Roorkee

Microelectronics: Devices To Circuits
at
IIT Roorkee
Course details

Skills you will learn

Simulation Engineering Design

Who should do this course?

For undergraduates in Electrical and Computer Engineering

More about this course

The objective of this course is to develop the ability to analyse and design electronic circuits both analog and digital, discrete and integrated
The course starts with the basics of the device most seldom encountered in mixed designs and then go on to do circuit analysis in the later parts

Microelectronics: Devices To Circuits
at
IIT Roorkee
Curriculum

Week 1

Bipolar Junction Transistor; Physical Structure and Modes of operation

Operation in Active Mode, circuit symbols and conventions

BJT as an Amplifier, small circuit model

BJT as a switch and Ebers Moll Model

Simple BJT inverter and Second Order Effects

Week 2

MOS Transistor Basic

MOS Parasitic & SPICE Model

CMOS Inverter Basics-I

Week 3

CMOS Inverter Basics(contd)

Power Analysis

SPICE Simulation-I

Week 4

Biasing of MOS Amplifier and its behavior as an analog switch

CMOS CS/CG/SF Amplifier Configuration

Internal cap models and high frequency modelling

JFET, structure and operation

Week 5

Multistage and Differential Amplifier

Small Signal Operation and Differential Amplifier

MOS Differential Amplier

BiCMOS Amplifier with Active Load

Multistage Amplifier with SPICE Simulation

Week 6

s-domain analysis, transfer function, poles and zeros

High Frequency Response of CS and CE Amplifier

Frequency Response of CC and SF Configuration

Frequency Response of the Differential Amplifier

Cascode Connection and its Operation

Week 7

General Feedback structure and properties of negative feedback

Basic Feedback Topologies

Design of Feedback Amplifier for all configuration

Stability and Amplifier poles

Bode Plots and Frequency Compensation

Week 8

Ideal Operational Amplifier and its terminals

Inverting and Non- Inverting Configuration

As an integrator and Differentiator

Introduction to Analog Computer

Large Signal Operation of Op-Amp and Second order offsets

Week 9

Butterworth and Chebyshev Filters

First and Second Order Filter Functions

Switched Capacitor based filters

Single-Amplifier Biquadratic Filters

Second Order LCR Resonator

Week 10

Combinational Logic Design

Week 11

Sequential Logic Design

Week 12

Clock Strategies for Sequential Design, Concept of Memory & its Designing-I

Microelectronics: Devices To Circuits
at
IIT Roorkee
Faculty details

Prof. Sudeb Dasgupta

He is presently working as an Associate Professor, in Microelectronics and VLSI Group of the Department of Electronics and Communication Engineering at Indian Institute of Technology, Roorkee. He received his PhD degree in Electronics Engineering from Institute of Technology-Banaras Hindu University (currently IIT-BHU), Varanasi in 2000.