Electronics Devices And Circuits - Foundation Of Electronics

Learn Electronics Fundamentals: Semiconductor Material | PN Diode | Special Diodes | BJT | MOSCAP | MOSFET

What you'll learn

Semiconductor Fundamentals

PN Junction Characteristics

Special Diodes like LED, Varactor Didoes, Tunnel Diode, Photo Diode, Solar Cell

Applications of PN Junction Diode in Electronics

Bipolar Junction Transistor (BJT) Basics and Working

AC Analysis of BJT

MOSCAP working, Mode of Operation and Examples

MOSFET Basics and Examples

Requirements

No specific Prerequisite needed

Description

This Electronic Devices and Circuits course is specially designed for students who want to clear basic to advanced fundamentals of Electronics. It is also helpful for working professionals. It forms the foundation to enter into the fields like Embedded Systems, VLSI, Instrumentations, etc. This course covers almost all universities' syllabus. This is a unique course in the online marketplace.This course applies to many branches of Degree/Diploma/Science. After completing this course students will be able to understand basic to advanced-level concepts of Electronics Devices and various Electronics Circuits which will be a stepping stone for starting many lucrative career fields.This course covers the following topics.1. Energy Bands and Semiconductors 2. PN Junction3. Special Diodes in Electronics4. BJT5. BJT AC Analysis6. MOSCAP7. MOSFET8. Electronics ExperimentsSo, go through this entire course step by step and I am pretty sure that you will get thorough knowledge about this course. Detailed Syllabus of course is as follows:1. Energy Bands and Semiconductors: Energy Bands and Classification of Solid Materials, Types of Semiconductor Materials, Drift Current and Diffusion Current, Mass Action Law, Examples of Semiconductor Materials, Examples of Drift Current and Diffusion Current, Examples of Conductivity and Resistivity, Einstein Relation in Semiconductor, Examples of Einstein Relation in Semiconductor, Fermi Dirac Distribution in Semiconductor, Electron Concentration in Conduction band and Holes Concentration in Valance Band, Intrinsic Concentration in Semiconductor, Drift Velocity and Free Velocity, Fermi Energy Level in Intrinsic Semiconductor, Fermi Energy Level in Extrinsic Semiconductor, Hall Effect in Semiconductor, Examples of Hall Effect in Semiconductor, Energy & Wavelength for Generation and Recombination, Examples of Energy & Wavelength for Generation and Recombination, Generation and recombination due to uniform illumination, Examples of Generation and recombination, Energy Band Diagram, Examples of Energy Band Diagram, Continuity Equation, Direct Bandgap and Indirect Bandgap Semiconductor. 2. PN Junction: PN Junction in Equilibrium, Energy Band Diagram of PN Junction, Cut in Voltage of PN Junction, Electric Field of PN Junction, Depletion Width of PN Junction, Examples of PN Junction, PN Junction under forward bias, PN Junction under reverse bias, Ideal Diode & Practical Diode, Diode Ratings, Diode Testing and Diode Quality Verification, Effect of Temperature in PN Junction, Examples of Diode Circuits, PN Junction Capacitance, Examples of PN Junction Capacitance, PN Junction Switching Characteristics. 3. Special Diodes: LED - Light Emitting Diode, Examples of LED, Varactor Diode, Tunnel Diode, Examples of Tunnel Diode, Photo Diode, Solar Cell, Examples of Solar Cell. 4. BJT: BJT Parameters under Equilibrium, BJT Operation Regions, BJT Applications & BJT Base Width, BJT in Active Region, BJT Carrier Distributions in Different Modes, Ebers Moll Model of BJT, Early Effect, Common Base Configuration of BJT, Common Emitter Configuration of BJT, Punch Through in BJT, Examples of BJT. 5. BJT AC Analysis: Coupling Capacitor with Transistor, AC Analysis of BJT, AC Load Line of BJT, Hybrid Parameters of BJT, re Model of BJT, Hybrid Pi Model of BJT, Common Emitter Amplifier using BJT, Examples of BJT, Darlington Pair of BJT.6. MOSCAP: MOSCAP, MOS Capacitor, Ideal MOSCAP, Flat Band Voltage in MOSCAP, MOSCAP under External Bias, MOSCAP under Accumulation Mode, MOSCAP under Depletion Mode, MOSCAP under Inversion Mode, Threshold Voltage of MOSCAP, Inversion Charge of MOSCAP, CV Characteristics of MOSCAP, Examples of MOSCAP. 7. MOSFET: MOSFET, IV Characteristics of MOSFET, Channel Length Modulation of MOSFET, Small Signal Model of MOSFET, Transconductance and Drain Resistance of MOSFET, Body Effect in MOSFET, Examples of MOSFET, Examples of IC Technology. 8. Electronics Experiments: Use of Function Generator in MULTISIM, VI Characteristics of PN Junction Diode in MULTISIM, Zener Diode Characteristics in MULTISIM, Half wave Rectifier in MULTISIM, Full wave Rectifier in MULTISIM, Bridge Rectifier in MULTISIM, Logic GATEs in MULTISIM, Clipper Circuits in MULTISIM, Common Emitter Characteristics of BJT in MULTISIM, Frequency Response of Common Emitter Amplifier in MULTISIM, FET Characteristics in MULTISIMAll the best…

Overview

Section 1: Course Introduction

Lecture 1 Introduction

Section 2: Semiconductor Material

Lecture 2 Energy Bands and Material Classification

Lecture 3 Types of Semiconductor Materials

Lecture 4 Drift Current and Diffusion Current

Lecture 5 Mass Action Law

Lecture 6 Examples on Semiconductor

Lecture 7 Examples on Semiconductor

Lecture 8 Examples of Drift Current and Drift Velocity

Lecture 9 Examples of Conductivity and Resistivity

Lecture 10 Einstein Relation in Semiconductor

Lecture 11 Examples of Diffusion Current

Lecture 12 Examples on Einstein Relation

Lecture 13 Fermi Dirac Distribution

Lecture 14 Electron Concentration & Hole Concentration

Lecture 15 Intrinsic Concentration

Lecture 16 Comparison of Drift Velocity and Free Velocity

Lecture 17 Fermi Energy in Intrinsic Semiconductor

Lecture 18 Fermi Energy in Extrinsic Semiconductor

Lecture 19 Hall Effect

Lecture 20 Examples of Hall Effect

Lecture 21 Energy & Wavelength for Generation & Recombination

Lecture 22 Examples of Energy & Wavelength

Lecture 23 Uniform Illumination

Lecture 24 Examples of Uniform Illumination

Lecture 25 Examples of Energy Band Diagram

Lecture 26 Continuity Equation

Lecture 27 Direct Bandgap and Indirect Bandgap Semiconductors

Section 3: PN Junction Diode

Lecture 28 PN Junction in Equilibrium

Lecture 29 Energy Band Diagram of PN Junction

Lecture 30 Cut In Voltage of PN Junction

Lecture 31 Electric Field at PN Junction

Lecture 32 Width of Depletion Region

Lecture 33 Examples of PN Junction

Lecture 34 Examples of PN Junction

Lecture 35 Example on PN Junction Parameters with zero bias condition (1)

Lecture 36 PN Junction in Forward Bias

Lecture 37 PN Junction in Reverse Bias

Lecture 38 Examples of PN Junction in Reverse Bias

Lecture 39 Examples of PN Junction in Forward Bias

Lecture 40 Ideal and Practical Diodes Approximations

Lecture 41 Diode Ratings

Lecture 42 Diode testing and Diode Quality Verification

Lecture 43 Effect of Temperature on PN Junction

Lecture 44 Examples on Effect of Temperature on PN Junction

Lecture 45 Examples on Diode Circuit

Lecture 46 Examples on Diode Circuit

Lecture 47 Examples on Diode Circuit

Lecture 48 Examples on Diode Circuit

Lecture 49 PN Junction Capacitance

Lecture 50 Examples of PN Junction Capacitance

Lecture 51 PN Junction Switching Characteristics

Lecture 52 Examples of PN Junction Breakdown

Section 4: Special Diodes

Lecture 53 LED

Lecture 54 Examples of LED

Lecture 55 Varactor Diode

Lecture 56 Tunnel Diode

Lecture 57 Examples of Tunnel Diode

Lecture 58 Photo Diode

Lecture 59 Solar Cell

Lecture 60 Examples of Solar Cell

Lecture 61 Examples of Special Diode

Section 5: Diode Applications

Lecture 62 Half Wave Rectifier

Lecture 63 Parameters of Half Wave Rectifier

Lecture 64 Full Wave Rectifier

Lecture 65 Full Wave Bridge Rectifier

Lecture 66 Parameters of Full Wave Rectifier

Lecture 67 Half Wave Vs Full Wave Vs Bridge Rectifier

Lecture 68 Requirement of Filters in Rectifier

Lecture 69 C Filter in Rectifier

Lecture 70 L Filter in Rectifier

Lecture 71 Pi Filter and T Filter in Rectifier

Lecture 72 Linear and Non Linear Wave Shaping Circuit

Lecture 73 Clipper Circuits

Lecture 74 Biased Clipper Circuits

Lecture 75 Combinational Clipper

Lecture 76 Examples of Clipper Circuits

Lecture 77 Clamper Circuits

Lecture 78 Clipper Vs Clamper Circuits

Section 6: Bipolar Junction Transistor (BJT)

Lecture 79 BJT - Equilibrium

Lecture 80 BJT Biasing

Lecture 81 BJT Applications and BJT base width

Lecture 82 BJT in Active Region

Lecture 83 BJT Carrier Distribution

Lecture 84 Ebers Moll Model of BJT

Lecture 85 Early Effect

Lecture 86 CB Configuration

Lecture 87 CE Configuration

Lecture 88 Punch Through in BJT

Lecture 89 Examples of BJT

Lecture 90 Examples of BJT

Lecture 91 Examples of BJT

Section 7: AC Analysis of BJT

Lecture 92 Coupling Capacitors

Lecture 93 AC Analysis of BJT

Lecture 94 AC Load Line of BJT

Lecture 95 Hybrid Parameters of BJT

Lecture 96 Equivalent Circuit of Hybrid Model of BJT

Lecture 97 re Model of BJT

Lecture 98 Hybrid Pi Model of BJT

Lecture 99 Common Emitter Amplifier

Lecture 100 Examples of BJT

Lecture 101 Examples of BJT

Lecture 102 Examples of BJT

Lecture 103 Darlington Pair of BJT

Section 8: MOSCAP

Lecture 104 MOSCAP

Lecture 105 Ideal MOSCAP

Lecture 106 Flat Band Voltage in MOSCAP

Lecture 107 MOSCAP under external Bias

Lecture 108 MOSCAP under Accumulation Mode

Lecture 109 MOSCAP under Depletion Mode

Lecture 110 MOSCAP under Inversion Mode

Lecture 111 Threshold Voltage of MOSCAP

Lecture 112 Inversion Charge in MOSCAP

Lecture 113 CV Characteristics of MOSCAP

Lecture 114 Examples of MOSCAP

Lecture 115 Examples of MOSCAP

Lecture 116 Examples of MOSCAP

Section 9: MOSFET

Lecture 117 MOSFET

Lecture 118 IV Characteristics of MOSFET

Lecture 119 Channel Length Modulation

Lecture 120 Small Signal Model of MOSFET

Lecture 121 gm and rd of MOSFET in Linear Region

Lecture 122 Body Effect IN MOSFET

Lecture 123 Examples of MOSFET

Lecture 124 Examples of MOSFET

Lecture 125 Examples of MOSFET

Lecture 126 Examples of MOSFET

Lecture 127 Examples of MOSFET

Lecture 128 Examples of MOSFET

Lecture 129 Examples of MOSFET

Lecture 130 IC Technology

Section 10: Experiments on Multisim Software

Lecture 131 Use of Function Generator and Waveform on Oscilloscope CRO in Multisim

Lecture 132 VI Characteristics of PN Junction Diode in Multisim

Lecture 133 Zener Diode Characteristics and Zener Diode as Voltage Regulator in Multisim

Lecture 134 Halfwave Rectifier with and without Filter in Multisim

Lecture 135 Full wave Rectifier with and without filter in Multisim

Lecture 136 Full wave Bridge Rectifier with and without Filter in Multisim

Lecture 137 AND Gate and OR Gate using diode in Multisim

Lecture 138 Logic Gates in Multisim

Lecture 139 Clipper Circuit, Positive Clipper, Negative Clipper in Multisim

Lecture 140 Common Emitter Characteristics of NPN Transistor in Multisim

Lecture 141 Frequency Response of Common Emitter BJT Amplifier in Multisim

Lecture 142 FET characteristics in Multisim

Students (Engineering, Diploma, Science),Hardware Engineers,Those who are keen on mastering the basics of electronics,Hobbyists,Electronics Circuit Designer,Anyone with a curiosity for technology