Operational Amplifier
Published 10/2024
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 632.45 MB | Duration: 2h 24m
Published 10/2024
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 632.45 MB | Duration: 2h 24m
Op-Amp Linear and Non-Linear Integrated circuits
What you'll learn
Introduction to Operational Amplifier
Ideal Op-Amp
Practical Op-Amp and its applications
Op-Amp non-linear Applications
Active Filters
Requirements
Engineering students pursuing their B. Tech and M. Tech.
Description
In this course, we will apply the important concept of Op-Amp. The Operational Amplifier (Op-Amp) is a high performance linear or non-linear amplifier with amazing variety of uses. The Op-Amp has two input terminals inverting (-) & non-inverting (+) and one output terminal. The gain of Op-Amp is determined by a feedback resistor that feeds some of the amplified signal from the output to the input terminal. This reduces the amplitude of the output signal, hence the gain. The smaller the feedback resistor, lower the gain. In this course, you will learn about:Introduction to Op-AmpCharacteristics of OP-AmpEquivalent circuit of Op-AmpSingle ended input and single ended outputSingle ended input with double ended outputDouble ended input with double ended outputOp-Amp transfer characteristicsDifferential mode Operation Common Mode OperationInternal circuit of an Op-AmpIdeal Op-AmpCharacteristics of Ideal Op-AmpIdeal Op-Amp analysisInverting amplifierNon-inverting AmplifierVoltage followerSummerIntegratorDifferentiatorPractical Op-Amp characteristicsOp-Amp non-linear applicationsDifference Amplifier Precision half-wave rectifier Logarithmic amplifierAntilog AmplifierInstrumentation AmplifierActive FiltersLow-Pass FilterHigh-Pass FilterBand-Pass FilerFrequency response of Low-Pass FilterFrequency response of High-Pass FilterFrequency response of Band-Pass Filter This experience will be valuable in preparing students for advanced studies and professional work in the field of electronics.
Overview
Section 1: Introduction
Lecture 1 Introduction to Op-Amp
Lecture 2 Op-Amp Transfer characteristics
Lecture 3 Differential Mode Operation
Lecture 4 Common Mode Operation
Lecture 5 Single ended input and single ended output
Lecture 6 Single ended input with double ended output
Lecture 7 Double ended input with double ended output
Lecture 8 Internal Circuit of an Op-Amp
Lecture 9 Example of Op-Amp
Lecture 10 How can you draw internal circuit of an Op-Amp?
Section 2: Ideal Op-Amp
Lecture 11 Characteristics of Ideal Op-Amp
Lecture 12 Ideal Op-Amp analysis
Lecture 13 Examples of CMRR
Section 3: Practical Op-Amp and its applications
Lecture 14 Characteristics of Practical Op-Amp
Lecture 15 Inverting Amplifier
Lecture 16 Non-Inverting voltage Amplifier
Lecture 17 Voltage Follower
Lecture 18 Summer
Lecture 19 Integrator
Lecture 20 Differentiator
Lecture 21 Difference Amplifier
Lecture 22 Example of practical Op-Amp
Section 4: Op-Amp non-linear Circuit Applications
Lecture 23 Precision half-wave rectifier
Lecture 24 Logarithmic Amplifier
Lecture 25 Antilog or Exponential Amplifier
Lecture 26 Instrumentation Amplifier
Section 5: Active Filters
Lecture 27 Active Filters and its Advantages over passive filters
Lecture 28 Low-Pass Active Filter
Lecture 29 High-Pass Active Filter
Lecture 30 Band-Pass Active Filter
This course is suitable for people who are already familiar with op-amp and want to extend their knowledge to analog design. Anyone who is taking this should have a basic understanding of Power Electronics.,Engineering students pursuing their B. Tech and M. Tech,All Power Electronics and Analog Design enthusiasts,Industry professionals working on signal conditioning circuits