Analog & Linear Electronic Circuits: Complete Guide

Single, multi-stage amplifiers, Linear IC's - Introduction, Applications, Feedback AMplifiers, Oscillators

What you'll learn

Develop a comprehensive understanding of the operation and design of single-stage and multi-stage amplifiers using BJTs and MOSFETs, including their frequency r

Provide in-depth knowledge of feedback mechanisms and oscillators, enabling students to analyze, design, and implement stable and efficient analog circuits.

Introduce students to operational amplifiers (Op-amps), their key characteristics, and their diverse applications in signal processing, instrumentation, and con

Equip students with the skills to design and implement advanced circuits using specialized integrated circuits such as the 555 Timer, PLLs, and voltage regulato

Requirements

This course serves as a valuable learning platform for beginner electronics students, helping them build a strong foundation and enhance their understanding of analog and linear electronic circuits. It paves the way for deeper knowledge and practical skills essential for their academic and professional growth.

Description

Welcome to Analog & Linear Electronic Circuits: A Complete Guide! Step into the world of Analog and Linear Electronic Circuits, where signals are continuously processed, amplified, and shaped to power modern electronic systems! This comprehensive course is designed to help you master the fundamental principles and practical applications of analog circuits, equipping you with the skills to design and analyze real-world electronic systems.Whether you're an aspiring electronics engineer, a circuit enthusiast, or a student looking to strengthen your foundation, this course is your gateway to understanding single and multi-stage amplifiers, feedback amplifiers, oscillators, and linear integrated circuits (ICs). Through a structured blend of theoretical insights and hands-on applications, you'll develop the ability to design and optimize analog circuits with confidence.Our goal is to provide a rich learning experience, ensuring you not only grasp the concepts but also apply them effectively in amplifier design, signal processing, and electronic circuit development. By the end of this course, you'll be well-equipped to tackle real-world challenges in analog electronics and advance your journey in circuit design.Get ready to explore, experiment, and master the art of analog electronics! Let’s dive in and build a strong foundation in Analog and Linear Electronic Circuits together! Happy Learning & Best of Luck!

Overview

Section 1: Single and Multistage Amplifiers

Lecture 1 1. Introduction - Transistor explanation

Lecture 2 2. Small signal BJT hybrid pi modal

Lecture 3 3. PNP transistor

Lecture 4 4. Hybrid pi with early effect

Lecture 5 5. Common base derivation

Lecture 6 6. BJT with voltage divider

Lecture 7 7. Problem 3 voltage divider biasing

Lecture 8 8. Circuit with emitter resister

Lecture 9 9. Comon collector diagram explanation

Lecture 10 10. Problem 4 with emitter resister

Lecture 11 11. Problem 5 with emitter resister pnp transistor

Lecture 12 12. Common collector derivations

Lecture 13 13. Problem 1

Lecture 14 14. Problem 2

Lecture 15 15. MOSFET transconductance and output resistance

Lecture 16 16. Common source amplifier

Lecture 17 17. Common source amplifier with source resistor

Lecture 18 18. Common drain Source follower

Lecture 19 19. Common gate amplifier

Section 2: Introduction to Linear Integrated Circuits

Lecture 20 20. BJT and MOSFET Differential Amplifier with Passive and Active Loads

Lecture 21 21. FET Differential Amplifier with Active Load

Lecture 22 22. Internal Structure of Op-amp

Lecture 23 23. Differential Amplifier

Lecture 24 24. Characteristics of Op Amp

Lecture 25 25. AC Characteristics - Frequency Response of Op Amp

Lecture 26 26. Output stages and power amplifiers (Class A, AB)

Lecture 27 27. Problem in Transformer Coupled Emitter Follower

Section 3: Application of Linear Integrated Circuits - I

Lecture 28 28. Adder, Subtractor, Differentiator, Integrator, Instrumentation Amplifier

Lecture 29 29. Converter Voltage to Current & Current to Voltage

Lecture 30 30. Comparator, Schmitt Trigger

Lecture 31 31. Schmitt Trigger Problems

Lecture 32 32. Monostable, Astable Multivibrators

Lecture 33 33. First, Second Order Low Pass Filter

Lecture 34 34. Problems in Low Pass Filter

Lecture 35 35. High Pass, Band Pass, Band Stop Filters

This course is ideal for students with an electronics background, providing a strong foundation in the fundamental concepts of analog and linear electronic circuits. It offers valuable insights into circuit design, analysis, and practical applications, making it an essential learning experience for aspiring engineers.