Operational Amplifiers & Linear Integrated Circuits Theory and Application

Operational Amplifiers & Linear Integrated Circuits Theory and Application

The goal of this text, as its name implies, is to allow the reader to become proficient in the analysis and design of circuits utilizing modern linear ICs. It progresses from the fundamental circuit building blocks through to analog/digital conversion systems. The text is intended for use in a secon...

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Bibliographic Details
Main Author: Fiore, James (Author)
Format: Electronic eBook
Language:English
Published: [Place of publication not identified] dissidents [2018]
Edition:3e
Series:Open textbook library.
Subjects:
Engineering and Technology > Textbooks
Electrical Engineering > Textbooks
Online Access:Access online version
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Table of Contents:
  • Chapter 1: Introductory Concepts and Fundamentals
  • 1.1 Introduction
  • 1.2 The Decibel
  • 1.3 Bode Plots
  • 1.4 Combining The Elements - Multi-Stage Effects
  • 1.5 Circuit Simulations Using Computers
  • 1.6 The Differential Amplifier
  • Summary
  • Chapter 2: Operational Amplifier Internals
  • 2.1 Introduction
  • 2.2 What Is An Op Amp?
  • 2.3 Simple Op Amp Comparator
  • 2.4 Op Amp Manufacture
  • Summary
  • Chapter 3: Negative Feedback
  • 3.1 Introduction
  • 3.2 What Negative Feedback Is and Why We Use It
  • 3.3 Basic Concepts
  • 3.4 The Four Variants of Negative Feedback
  • 3.5 Limitations On The Use of Negative Feedback
  • Summary
  • Chapter 4: Basic Op Amp Circuits
  • 4.1 Introduction
  • 4.2 Inverting and Non-inverting Amplifiers
  • 4.3 Single Supply Biasing
  • 4.4 Current Boosting
  • Summary
  • Chapter 5: Practical Limitations of Op Amp Circuits
  • 5.1 Introduction
  • 5.2 Frequency Response
  • 5.3 Gain-Bandwidth Product
  • 5.4 Slew Rate and Power Bandwidth
  • 5.5 Offsets
  • 5.6 Drift
  • 5.7 CMRR and PSRR
  • 5.8 Noise
  • Summary
  • Chapter 6: Specialized Op Amps
  • 6.1 Introduction
  • 6.2 Instrumentation Amplifiers
  • 6.3 Programmable Op Amps
  • 6.4 Op Amps for High Current, Power, and Voltage Applications
  • 6.5 High Speed Amplifiers
  • 6.6 Voltage Followers and Buffers
  • 6.7 Operational Transconductance Amplifier
  • 6.8 Norton Amplifier
  • 6.9 Current Feedback Amplifiers
  • 6.10 Other Specialized Devices
  • Summary
  • Chapter 7: Non-Linear Circuits
  • 7.1 Introduction
  • 7.2 Precision Rectifiers
  • 7.3 Wave Shaping
  • 7.4 Function Generation
  • 7.5 Comparators
  • 7.6 Log and Anti-Log Amplifiers
  • 7.7 Extended Topic: A Precision Log Amp
  • Summary
  • Chapter 8: Voltage Regulation
  • 8.1 Introduction
  • 8.2 The Need For Regulation
  • 8.3 Linear Regulators
  • 8.4 Switching Regulators
  • 8.5 Heat Sink Usage
  • 8.6 Extended Topic: Primary Switcher
  • Summary
  • Chapter 9: Oscillators and Frequency Generators
  • 9.1 Introduction
  • 9.2 Op Amp Oscillators
  • 9.3 Single Chip Oscillators and Frequency Generators
  • Summary
  • Chapter 10: Integrators and Differentiators
  • 10.1 Introduction
  • 10.2 Integrators
  • 10.3 Differentiators
  • 10.4 Analog Computer
  • 10.5 Alternatives to Integrators and Differentiators
  • 10.6 Extended Topic: Other Integrator and Differentiator Circuits
  • Summary
  • Chapter 11: Active Filters
  • 11.1 Introduction
  • 11.2 Filter Types
  • 11.3 The Use and Advantages of Active Filters
  • 11.4 Filter Order and Poles
  • 11.5 Filter Class or Alignment
  • 11.6 Realizing Practical Filters
  • 11.7 Band-Pass Filter Realizations
  • 11.8 Notch Filter (Band-Reject) Realizations
  • 11.9 Audio Equalizers
  • 11.10 Switched-Capacitor Filters
  • 11.11 Extended Topic: Voltage-Controlled Filters
  • Summary
  • Chapter 12: Analog-to-Digital-to-Analog Conversion
  • 12.1 Introduction
  • 12.2 The Sampling Theorem
  • 12.3 Resolution and Sampling Rate
  • 12.4 Digital-to-Analog Conversion Techniques
  • 12.5 Analog-to-Digital Conversion
  • 12.6 Extended Topic: Digital Signal Processing
  • Summary

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