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FUNDAMENTALS OF ELECTRICAL & ELECTRONICS ENGINEERING - 2024

Course Instructor Skilled in Odisha

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Course Overview

Schedule of Classes

Course Curriculum

1 Subject

Fundamentals of Electrical & Electronics Engineering

6 Exercises121 Learning Materials

UNIT 1 - OVERVIEW OF ELECTRONIC COMPONENTS AND SIGNALS

Chapter 1: Resistor

Chapter 2: Capacitor

Chapter 3:Inductors

Chapter 4: Classification of inductors

Chapter 5: Specifications of inductors

Chapter 6: Mutual inductance and Coefficient of coupling

Chapter 7: Types of core materials used at different frequencies

Chapter 8: Comparison of various inductors

Chapter 9: PN junction diode

Chapter 10: Operation of PN junction diode

Chapter 11: Diode equation

Chapter 12: Diode resistance

Chapter 13: Diode equivalent circuit

Chapter 14: Diode capacitances

Chapter 15: Zener diode

Chapter 16: Zener diode characteristics

Chapter 17: Specifications and applications of diodes

Chapter 18: Solved problems for semiconductor

Chapter 19: Light Emitting Diode (LED)

Chapter 20: Transistor

Chapter 21: Transistor configurations

Chapter 22: Characteristics of transistor

Chapter 23: Solved problems for transistor

Chapter 24: Junction Field Effect Transistor (JFET)

Chapter 25: Characteristics of JFET

Chapter 26: Small signal analysis of JFET

Chapter 27: MOSFET

Chapter 28: CMOS source-follower amplifier

Chapter 29: Differences between A.C. and D.C

Chapter 30: Voltage and Current

Chapter 31: Ideal/ Practical Voltage / Current Sources

Chapter 32: Assessment

Exercise

Chapter 33: FAQ

UNIT 2 - OVERVIEW OF ANALOG CIRCUITS

Chapter 1: Operational amplifier

Chapter 2: Characteristics of Op-Amp

Chapter 3: Pin Diagram of IC 741 packages

Chapter 4: Open loop operation and Negative feedback of Op-Amp

Chapter 5: Summing and Difference amplifier

Chapter 6: Integrator and Differentiator

Chapter 7: Assessment

Exercise

Chapter: 8 FAQ

UNIT 3 - OVERVIEW OF DIGITAL ELECTRONICS

Chapter 1: Introduction to digital electronics

Chapter 2: Introduction to number system

Chapter 3: Different types of number system

Chapter 4: Number base conversion

Chapter 5: Complements of numbers

Chapter 6: Signed binary numbers

Chapter 7: Data representation

Chapter 8: Arithmetic operations

Chapter 9: Binary codes

Chapter 10: Alpha numeric codes

Chapter 11: Boolean postulates and law

Chapter 12: Boolean expression and Duality theorem

Chapter 13: DeMorgan's theorem

Chapter 14: Boolean Expression

Chapter 15: Minimization of Boolean expression

Chapter 16: Karnaugh (K) map

Chapter 17: Simplification of SOP And POS Expressions

Chapter 18: Quine - Mccluskey method

Chapter 19: Numerical examples for Quine - McClusky method

Chapter 20: Map Entered Variables (MEV)

Chapter 21: Logic gates

Chapter 22: Universal gates

Chapter 23: Realization of Boolean expression with logic gates

Chapter 24: Multilevel gates

Chapter 25: Two level implementations

Chapter 26: Sequential logic circuits

Chapter 27: Latches

Chapter 28: Flip-flops

Chapter 29: Master slave flip-flops

Chapter 30: Counters

Chapter 31: Introduction to Digital ICs

Chapter 32: Introduction to TTL logic family

Chapter 33: TTL NAND gate

Chapter 34: Assessment

Exercise

Chapter: 35 FAQ

UNIT 4 - ELECTRIC AND MAGNETIC CIRCUITS

4.1 Introduction to basic principles of electricity

4.2 Basic definitions

4. 3 Work and Power

4.4 Magnet and Magnetic Field

4.5 Definitions of magnetizing force, magneticflux, permeability, reluctance

4.6 B-H relationship

4.7 Faraday's laws of electromagnetic induction

4.8 Lenz's law and Fleming's law

4.9 Principle of self and mutual induction

4.10 Compare magnetic circuit and electric circuit

4.11 Assessment

Exercise

4.12 FAQ

UNIT 5 - A.C. CIRUITS

5.1 Introduction to A.C.

5.2 Definitions of alternating quantities

5.3 Concept of reactance, impedance, susceptance and admittance

5.4 Real and reactive power

5.5 Phasor representation of alternating quantities

5.6 Pure resistance in AC circuit

5.7 Pure inductance in A.C. Circuits

5.8 Pure capacitance in A.C. circuits

5.9 RL, RC and RLC series circuits

5.10 A.C. through RC parallel circuit

5.11 A.C. through RL parallel circuit

5.12 A.C. Parallel RLC circuit

5.13 Three phase system

5.14 Relation between line and phase values of balanced star connection

5.15 Relationship between line and phase values of balanced delta connection

5.16 Assessment

Exercise

5.17 FAQ

UNIT 6 - TRANSFORMER AND MACHINES

6.1 Principle of operation

6.2 Construction of Single Phase Transformers

6.3 EMF equation

6.4 Transformer ratio

6.5 Three-phase Transformers

6.6 Auto transformers

6.7 D.C. Generator construction

6.8 Working principle of D.C. Generator

6.9 EMF Equartion

6.10 Working principle of D.C. Motor

6.11 Back e.m.f

6.12 Torque and speed equation

6.13 Types of D.C. motor

6.14 Characteristics

6.15 Single phase induction motors

6.16 Types of single phase induction motor

6.17 Capacitor start type induction motor

6.18 Capacitor run type induction motor

6.19 Capacitor start capacitor run induction motor

6.20 Assessment

Exercise

6.21 FAQ

Test f12 and ctrl u

Course Instructor

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Skilled in Odisha

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