Basic Electrical And Electronics Engineering

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About the course

Basic Electrical and Electronics Engineering aims at providing information about the fundamental concepts of Basic Electrical and Electronics Engineering. The subject covers basic understanding of D.C Circuit Analysis, A.C Circuits, Generators and Motors, p-n Junction Diodes, Bipolar and Field Junction Transistors along with Digital Electronics.

What will you learn?

The complete online syllabus of this course comprises 13 Learning Modules | 200 Topics of Learning | 9 Hours of Learning | 45 Assessments

Module

  • DC Circuit Analysis and Network Theorems
  • Electrical Resistance and Ohm’s Law
  • Single Phase And Three Phase AC Systems
  • Concepts of Magnetism and Electromagnetism
  • Single Phase Transformer
  • DC Generator and Motor
  • Induction Motor and Synchronous Machines
  • Measuring Instruments
  • P-N Junction Diodes and Their Applications
  • Rectification
  • Zener Diodes
  • Transistor Basics
  • Digital Electronics

Topics of Learning 

  • Circuits and Networks
  • Active and Passive Elements
  • Unilateral and Bilateral Elements
  • Linear Elements and Linearity
  • Kirchhoff’s Current Law
  • Kirchhoff’s Voltage Law
  • Loop Method of Circuit Analysis
  • Nodal Method of Circuit Analysis
  • Star and Delta Configuration
  • Resistance
  • Effect of Temperature on Resistance
  • Computation of Resistance at Constant and Different Temperature
  • Resistance in Series and Parallel Circuits
  • Ohm’s Law
  • Work, Power and Energy
  • RL series circuits
  • Instantaneous Rising Current in a Series RL Circuit
  • Instantaneous Decaying Current in a Series RL Circuit
  • RC series circuits
  • Instantaneous Rising Voltage across Capacitor
  • Instantaneous Decaying Voltage across Capacitor
  • AC Generation
  • Types of Waveforms: Sinusoidal, Triangular and Square
  • Basic Terms: Cycle , Time Period, Frequency and Amplitude
  • Maximum Value, RMS Value and Average Value
  • Form Factor, Crest Factor and Peak Factor
  • Three Phase Systems: Necessity and Advantages
  • Three Phase EMF Generation
  • Phase Sequence
  • Phase Quantity
  • Line Quantity
  • Impedance and Reactance
  • Rectangular Representation
  • Polar Representation
  • Phase and Phase Difference
  • Phasor Diagram
  • Phasor Diagram: Pure Resistive Circuit(R)
  • Phasor Diagram: Pure Capacitive Circuit(C)
  • Phasor Diagram: Pure Inductive Circuit(L)
  • Phasor Diagram: R-L Circuit
  • Phasor Diagram: R-C Circuit
  • Phasor Diagram: R-L-C Circuit
  • Active Power
  • Apparent Power
  • Power Factor
  • Power Factor Improvement
  • Resonance
  • Resonance in Series R-L-C Circuit
  • Bandwidth in Series R-L-C Circuit
  • Q Factor in Series R-L-C Circuit
  • Resonance in Parallel R-L-C Circuit
  • Q Factor in Parallel R-L-C Circuit
  • Balanced Supply and Balanced Load
  • Analogy Between Electric and Magnetic Circuit
  • Magnetic Field Strength(H)
  • Flux
  • Flux Density(B)
  • Permeability
  • Force on a Current carrying Conductor Lying in a Magnetic Field
  • Fleming’s Left Hand Rule
  • Magnetic Circuit
  • Magnetic Motive Force (MMF)
  • Reluctance
  • Biot- Savart Law
  • Ampere’s Circuital Law
  • Series Magnetic Circuits
  • Analogy Between Magnetism and Electricity: EMI
  • Faraday’s Law
  • Lenz’s Law
  • Fleming’s Right Hand Rule
  • Statically Induced EMF
  • Dynamically Induced EMF
  • Self Inductance
  • Mutual Inductance
  • Coefficient of Coupling
  • Inductance in Series
  • Inductance in Parallel
  • Principle of Operation
  • Construction of a Single Phase Transformer
  • Turn Ratio and Transformation Ratio
  • Step – Up and Step – Down Transformer
  • Ideal Transformer
  • Transformer on No Load
  • Voltage Regulation
  • Losses in Transformer
  • Efficiency of Single Phase Transformer
  • DC Generator: Principle of Operation
  • DC Generator: Construction
  • DC Generator: Equivalent Circuit
  • EMF Equation of Generator
  • Separately Excited Generator
  • Self Excited Generator
  • Self Excited Generator: Series Wound
  • Self Excited Generator: Shunt Wound
  • DC Machine as a Motor: Working
  • Back EMF
  • Voltage Equation of a Motor
  • Equivalent Circuit
  • Motor Characteristics
  • Series and Shunt DC Motor
  • Construction
  • General Principle of Operation
  • Production of Rotating Field
  • Synchronous Speed and Slip Speed
  • Frequency of Rotor Voltage and Current
  • Comp. between 3 Phase Synchronous and Induction Motors
  • Synchronous Motor: Introduction
  • Synchronous Motor: Principle of Operation
  • Transducer
  • Classification of Transducers
  • Characteristics of Transducers
  • LVDT
  • Strain Gauge
  • Thermistors
  • Multimeters
  • Digital Multimeters
  • Advantages of Digital Multimeter
  • Intrinsic Semiconductors
  • Extrinsic Semiconductors : n Type
  • Extrinsic Semiconductors : p Type
  • Semiconductor Conductivity
  • Effects of Heat and Light on Conductivity
  • What is p-n Junction?
  • Step and Graded p-n Junction
  • Depletion Region and Barrier Potential
  • Energy Diagram of p-n Junction
  • Forward Biasing
  • Reverse Biasing
  • Breakdown in Reverse Biased Diode
  • Barrier Potential and Junction Temperature
  • Diode Current Equation
  • Current Components in a p-n Junction Diode
  • V-I characteristics of p-n Junction Diode
  • Effects of Temperature on V-I Characteristics
  • Silicon and Germanium Diodes : V-I Characteristics
  • Diode Resistance and its Type
  • DC Load Line Concept and Operating Point
  • Bulk Resistance
  • Junction Capacitances
  • Applications of Diodes
  • Signal Rectification
  • Half Wave Rectifier
  • Centre-Tap Full Wave Rectifier
  • Bridge Full Wave Rectifier
  • Parameters of Wave Rectifier
  • Problem on Half Wave Rectifier
  • Problem on Bridge Wave Rectifier
  • Zener Diodes
  • Characteristics of Zener Diodes
  • Comparison of Zener Diode and p-n Junction Diode
  • What are Bipolar Junction Transistor
  • Transistor Construction
  • Biasing of the Transistor
  • Working of n-p-n Transistor
  • Transistor Currents
  • Transistor as an Amplifier
  • FETs and its Types
  • Construction of JFET
  • Pinch off Voltage
  • Effect of Potential at Gate Terminal
  • Drain Characteristics
  • Transfer Characteristics
  • JFET Parameters
  • Transconductance
  • Comparison between FET and BJT
  • Voltage Regulator
  • Zener Diode Shunt Regulator
  • Number System
  • Number System Conversion
  • Decimal to Binary Conversion
  • Binary to Decimal Conversion
  • Decimal – Octal Conversion
  • Octal – Decimal Conversion
  • Decimal – Hexadecimal Conversion
  • Hexadecimal to Decimal Conversion
  • Binary Addition
  • Binary Subtraction
  • Binary Multiplication
  • Binary Division
  • Sign Magnitude Convention
  • Sign Complement Convention
  • Truth Table
  • AND Gate
  • OR Gate
  • NOT Gate
  • NAND Gate
  • NOR Gate
  • X-OR Gate
  • X-NOR Gate
  • Universal Gates
  • Flip Flops
  • S-R Flipflop
  • J-K Flipflop
  • D Flipflop
  • T Flip Flop
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