Analog Electronics: From Basics To Advanced Electronics

Master Analog Electronics Circuits: Diode, BJT, Operational Amplifier, 555 Timer, PLL, VCO, Voltage Regulators Unveiled!

What you'll learn
Diode Circuits
BJT Circuits
Operational Amplifier Basics
Parameters of Operational Amplifier
Characteristics of Ideal Operational Amplifier
Virtual Short and Virtual Ground Concept of Operational Amplifier
Inverting and Non Inverting Amplifier
Different types of Operational Amplifier Circuits
741 IC
555 Timer IC
Astable, Monostable and Bistable Multivibrator using 555 Timer IC
Phase Lock Loop
565 PLL IC
Voltage Controlled Oscillator (VCO)
Fixed and Variable Voltage Regulators

Requirements
No Prior knowledge is needed. You will learn step by step from basic.

Description
Welcome to Analog Electronics! In this course, we'll delve into the fundamental principles and applications of analog circuits. From operational amplifiers to filters, oscillators, and more, you'll explore the intricate world of analog electronics, gaining the skills to design, analyze, and troubleshoot a variety of circuits essential for modern electronics.This Analog Electronics course is specially designed for students who want to clear basic to advanced fundamentals of Analog Electronics. It is also useful for working professionals. It forms the foundation to enter into 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 Degree, Diploma and Science Students. After completing this course students will be able to understand basic to advanced-level concepts of Analog Electronics such as OP-AMP, PLL, VCO, Voltage Regulators etc. which will be a stepping stone for starting many lucrative career fields.This course covers the following topics.1. Diode Circuits in Electronics2. BJT Circuits in Electronics3. Introduction to Operational Amplifier 4. Parameters of Operational Amplifier 5. Examples of Parameters of Operational Amplifier 6. Characteristics of Ideal Operational Amplifier 7. Feedback in Operational Amplifier 8. Virtual Short and Virtual Ground Concept in Operational Amplifier 9. Inverting Amplifier and Non-Inverting Amplifier using Operational Amplifier 10. Voltage Follower using Operational Amplifier 11. Summing, Averaging and Scaling using Operational Amplifier 12. Summing using Differential Operational Amplifier 13. Subtractor using Differential Operational Amplifier 14. Circuit Design from Equation using Operational Amplifier 15. 741 IC of Operational Amplifier 16. Examples of Operational Amplifier Circuits 17. V to I Converter using Operational Amplifier 18. I to V Converter using Operational Amplifier 19. Differentiator using Operational Amplifier 20. Examples of Differentiator using Operational Amplifier 21. Integrator using Operational Amplifier 22. Examples of Integrator using Operational Amplifier 23. Monostable Multivibrator using Operational Amplifier 24. Pulse width Derivation of Monostable Multivibrator using Operational Amplifier 25. Astable Multivibrator using Operational Amplifier 26. Frequency Derivation of Astable Multivibrator using Operational Amplifier 27. Designing of Multivibrator using Operational Amplifier 28. Bistable Multivibrator using Operational Amplifier 29. Triangular wave generator using Operational Amplifier 30. Sample and Hold Circuit using Operational Amplifier 31. Peak Detector using Operational Amplifier 32. Comparator using Operational Amplifier 33. Schmitt Trigger using Operational Amplifier 34. Instrumentation Amplifier using Operational Amplifier 35. Designing of Instrumentation Amplifier using Operational Amplifier 36. Precision Rectifier using Operational Amplifier 37. Log Amplifier using Operational Amplifier 38. Antilog Amplifier using Operational Amplifier 39. Clipper Circuits using Operational Amplifier 40. Active Filters using Operational Amplifier 41. First Order Butterworth Low Pass Filter using Operational Amplifier 42. First Order Butterworth High Pass Filter using Operational Amplifier 43. Designing of First Order Butterworth Low Pass Filter and High Pass Filter using Operational Amplifier 44. Wide Band Pass Filter using Operational Amplifier 45. Narrow Band Pass Filter using Operational Amplifier 46. Wide Band Stop Filter using Operational Amplifier 47. Narrow Band Stop Filter using Operational Amplifier 48. RC Phase Shift Oscillator using Operational Amplifier 49. Designing of RC Phase Shift Oscillator using Operational Amplifier 50. Wein Bridge Oscillator using Operational Amplifier 51. Designing of Wein Bridge Oscillator using Operational Amplifier 52. Designing of Oscillator using Operational Amplifier 53. Designing of Schmitt Trigger using Operational Amplifier 54. Designing of Integrator using Operational Amplifier 55. Designing of Filters using Operational Amplifier 56. Solved Examples of Operational AmplifierGet ready to unlock the power of analog technology and embark on a journey of discovery in this exciting field!"All the best...

Overview
Section 1: Course Introduction

Lecture 1 Introduction

Section 2: Diode Circuits

Lecture 2 Energy Bands and Material Classification

Lecture 3 Types of Semiconductor Materials

Lecture 4 PN Junction Diode

Lecture 5 VI Characteristics of PN Junction

Lecture 6 Dynamic Resistance of Diode

Lecture 7 Effect of Temperature on PN junction

Lecture 8 Diode testing and diode quality verification

Lecture 9 Ideal and Practical Diode Approximations

Lecture 10 Diode Ratings

Lecture 11 Half Wave Rectifier

Lecture 12 Parameters of Half Wave Rectifier

Lecture 13 Full Wave Rectifier

Lecture 14 Full Wave Bridge Rectifier

Lecture 15 Parameters of Full Wave Rectifier

Lecture 16 Half Wave Vs Full Wave Vs Bridge Rectifier

Lecture 17 Requirement of Filters in Rectifier

Lecture 18 C Filter in Rectifier

Lecture 19 L Filter in Rectifier

Lecture 20 Pi Filter and T Filter in Rectifier

Lecture 21 Linear and Non Linear Wave Shaping Circuit

Lecture 22 Clipper Circuits

Lecture 23 Biased Clipper Circuits

Lecture 24 Combinational Clipper

Lecture 25 Examples of Clipper Circuits

Lecture 26 Clamper Circuits

Lecture 27 Clipper Vs Clamper Circuits

Lecture 28 Examples on Diode Circuit

Lecture 29 Examples on Diode Circuit

Lecture 30 Examples on Diode Circuit

Lecture 31 Examples on Diode Circuit

Lecture 32 Examples on Diode Applications

Section 3: BJT Circuits

Lecture 33 BJT basics

Lecture 34 BJT Operational Regions

Lecture 35 BJT Working

Lecture 36 Common Base Configuration of BJT

Lecture 37 Common Emitter Configuration of BJT

Lecture 38 Relationship of Alfa, Beta and Gamma in Transistor

Lecture 39 Comparison of CB, CE and CC Configuration of BJ

Lecture 40 DC Load Line and Q Point

Lecture 41 Bias Stabilization of BJT

Lecture 42 Stability Factor in BJT

Lecture 43 Fixed Bias of BJT

Lecture 0 Emitter Bias of BJT

Lecture 44 Collector Feedback Bias of BJT

Lecture 45 Voltage Divider Bias of BJT

Lecture 46 Solved Examples of Transistor Biasing

Lecture 47 Solved Examples of Transistor Biasing

Lecture 48 Solved Examples of Transistor Biasing

Lecture 49 Transistor as Switch

Section 4: Operational Amplifier

Lecture 50 Op-Amp Basics

Lecture 51 Parameters of Operational Amplifier

Lecture 52 Examples of Parameters of OpAmp

Lecture 53 Examples of Parameters of OpAmp

Lecture 54 Characteristics of Ideal Operational Amplifier

Lecture 55 Feedback in Operational Amplifier

Lecture 56 Virtual Short and Virtual Ground

Lecture 57 Inverting and Noninverting Amplifier

Lecture 58 Voltage Follower using Operational Amplifier

Lecture 59 Summing, Averaging and Scaling using OpAmp

Lecture 60 Summing using Differential OpAmp

Lecture 61 Subtractor using Differential OpAmp

Lecture 62 Circuit Design from Equation using OpAmp

Lecture 63 Circuit Design from Equation using OpAmp

Lecture 64 741 IC of Operational Amplifier

Lecture 65 Examples of Operational Amplifier Circuits

Lecture 66 V to I Converter

Lecture 67 I to V Converter

Lecture 68 Differentiator using Operational Amplifier

Lecture 69 Examples of Differentiator

Lecture 70 Integrator

Lecture 71 Examples of Integrator

Lecture 72 Examples of integrator

Lecture 73 Monostable using OpAmp

Lecture 74 Plus Width Monostable Multivibrator by OpAmp

Lecture 75 Designing of Monostable Multivibrator by OpAmp

Lecture 76 Astable Multivibrator using OpAmp

Lecture 77 Frequency Derivation of Astable Multivibrator

Lecture 78 Designing of Astable Multivibrator using OpAmp

Lecture 79 Bistable Multivibrator by OpAmp

Lecture 80 Triangular Wave Generator by OpAmp

Lecture 81 Peak Detector using OpAmp

Lecture 82 Sample & Hold Circuit using OpAmp

Lecture 83 Comparator using OpAmp

Lecture 84 Schmitt Trigger

Lecture 85 Schmitt Trigger Problems

Lecture 86 Instrumentation Amplifier

Lecture 87 Designing of Instrumentation Amplifier

Lecture 88 Precision rectifier using OpAmp

Lecture 89 Log Amplifier using Operational Amplifier

Lecture 90 Antilog Amplifier using Operational Amplifier

Lecture 91 Clipper Circuits using OpAmp

Lecture 92 Active Filters

Lecture 93 1st Order Butterworth LPF

Lecture 94 1st Order Butterworth HPF

Lecture 95 Designing of LPF and HPF

Lecture 96 Wide Band BPF using OpAmp

Lecture 97 Narrow BPF using OpAmp

Lecture 98 Wide Band Stop Filter using OpAmp

Lecture 99 Narrow Band Stop Filter using OpAmp

Lecture 100 Examples on Filter

Lecture 101 RC Phase Shift Oscillator using OpAmp

Lecture 102 Designing of RC Phase Shift Oscillator

Lecture 103 Wein Bridge Oscillator using OpAmp

Lecture 104 Designing of Wein Bridge Oscillator using OpAm

Lecture 105 Designing of Oscillators by OpAmp

Lecture 106 Examples of OpAmp

Lecture 107 Examples of OpAmp

Lecture 108 Examples of OpAmp

Section 5: 555 Timer

Lecture 109 555 Timer IC

Lecture 110 Astable Multivibrator using 555

Lecture 111 Monostable multivibrator using 555

Lecture 112 Bistable Multivibrator using 555

Lecture 113 Designing of Multivibrators using 555

Section 6: Phase Lock Loop (PLL)

Lecture 114 Phase Lock Loop

Lecture 115 565 PLL IC

Section 7: Voltage Controlled Oscillator (VCO)

Lecture 116 VCO

Lecture 117 566 VCO IC

Section 8: Fixed Voltage Regulators and Adjustable Voltage Regulators

Lecture 118 Fixed Voltage Regulators

Lecture 119 Adjustable voltage regulators

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

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