Fundamental of Electronic Engineering

This course involves introducing students to the fundamental electronic components and features of electronic devices through a structured curriculum. The course covers basic electronic devices and circuits, including diodes and diode circuits, as well as BJT and JFET and their application in circuits. Students will also be guided through the study of OP-AMP circuits and their various applications. Assignments will be provided to allow students to assess their comprehension of the topics covered. Course credit4

Week

Topic

1.

Introduction to basic concepts

Energy band

Intrinsic and extrinsic Semiconductors

2.

Fermi Dirac distribution function

Drift current

Relation between conductivity and mobility

Diffusion current

3.

p-n junction diode: Introduction

pn- junction diode: working

Barrier potential and V-I characteristics of diode

Diode current equation

4.

Rectifier Parameters

Rectifier

Bridge rectifier

Filter Circuits

5.

Zener diode: working and construction

Zener and avalanche breakdown

Clipper

Clamper

6.

Metal-Semiconductor junctions and Hetrojunctions

Introduction to transistors

Bipolar junction transistor: Working

7.

BJT Common Base Configuration

BJT: Common Emitter Configuration

BJT: Common Collector Configuration

8.

Ebers moll model

BJT Amplifiers: Common Emitter

BJT Amplifiers: Common Collector

9.

Introduction to field effect transistor

JFET: Operation

JFET: output and transfer characteristics

10.

MOSFET: Introduction

MOSFET: Channel formation

MOSFET: VI Characteristics

11.

MOSFET: Small signal model

Differential Amplifier

OP-AMP Introduction

12.

OP-Amp Adder and Substarctor

OP-Amp Divider and multiplier

OP-AMP integrator and differentiator