Analog electronics applications : fundamentals of design and analysis

This comprehensive text discusses the fundamentals of analog electronics applications, design, and analysis. Unlike the physics approach in other analog electronics books, this text focuses on an engineering approach, from the main components of an analog circuit to general analog networks. Concentr...

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Bibliographic Details
Main Author Fernandez-Canque, Hernando Lautaro (Author)
Format Electronic eBook
LanguageEnglish
Published Boca Raton, FL : CRC Press, [2017]
Subjects
Analog electronic systems.
Electronic circuits.
Electronics.
elektronické knihy
electronic books
Online AccessFull text
ISBN9781315354071
1315354071
9781523108473
1523108479
9781315371252
1315371251
9781498714969
149871496X
9781315335018
1315335018
9781498714952
1498714951
Physical Description1 online resource : illustrations

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Table of Contents:
  • Cover; Half Title; Title Page; Copyright Page; Dedication; Contents; Preface; Acknowledgments; Author; 1. Analog Electronics Applications and Design; 1.1. Introduction to Analog Electronics; 1.2. Analog Signals; 1.3. Analog Systems; 1.4. Application and Design of Analog Systems; 1.4.1. Customer Requirements; 1.4.2. Top-Level Specifications; 1.4.3. System Design Approach; 1.4.3.1. Top-Level Design; 1.4.3.2. Detailed Design; 1.4.4. Technology Choice; 1.4.4.1. System Testing; 1.4.4.2. Social and Environmental Implications; 1.4.4.3. Documentation; 1.4.5. Distortion and Noise; 1.4.5.1. Noise
  • 1.4.5.2. Distortion1.4.6. Electronic Design Aids; 1.5. Key Points; 2. Electric Circuits; 2.1. Introduction; 2.2. Units; 2.2.1. Unit of Charge; 2.2.2. Unit of Force; 2.2.3. Unit of Energy; 2.2.4. Unit of Power; 2.2.5. Unit of Electric Voltage; 2.2.6. Unit of Resistance and Conductance; 2.3. Concept of Electric Charge and Current; 2.4. Movement of Electrons and Electric Current in a Circuit; 2.4.1. Circuit; 2.4.2. Electromotive Force; 2.4.3. Source; 2.4.4. Load; 2.5. Passive Components: Resistance, Inductance, and Capacitance; 2.5.1. Resistance
  • 2.5.1.1. Resistors Connected in Series and Parallel2.5.1.2. Resistors Connected in Series; 2.5.1.3. Resistor Connected in Parallel; 2.5.1.4. Special Case; 2.5.2. Capacitance; 2.5.2.1. Capacitors in Parallel; 2.5.2.2. Capacitors in Series; 2.5.3. Inductors; 2.5.3.1. Inductors in Series; 2.5.3.2. Inductors in Parallel; 2.5.3.3. Energy Storage W in an Inductor; 2.5.4. Application: Inductive Proximity Sensors; 2.6. Active Components of a Circuit: Sources; 2.6.1. Ideal Voltage Source; 2.6.2. Practical Voltage Source; 2.6.3. Voltage Sources Connected in Series
  • 2.6.4. Voltage Sources Connected in Parallel2.6.4.1. Ideal Current Source; 2.6.4.2. Practical Current Source; 2.7. Electric Circuits/Networks; 2.7.1. Selection of Components; 2.8. Key Points; 3. Circuit Analysis; 3.1. Concept of Steady State and Transient Solutions; 3.2. DC Circuits; 3.2.1. Kirchhoff's Current Law Applied to Electric Circuits: KCL; 3.2.2. Kirchhoff's Voltage Law Applied to Electric Circuits: KVL; 3.2.2.1. The Voltage and Current Divider; 3.3. AC Circuits; 3.3.1. Origin of Phasor Domain; 3.3.2. Application of Kirchhoff's Law to ac Circuits; 3.3.2.1. Impedance Z
  • 3.3.2.2. Impedance of an Inductor3.3.2.3. Impedance of a Capacitance; 3.3.2.4. Impedance of a Resistance; 3.3.2.5. Reactance X; 3.3.2.6. Polar-Cartesian Forms; 3.3.2.7. Cartesian to Polar Form; 3.3.2.8. Polar to Cartesian; 3.3.2.9. Phasor Diagrams; 3.4. Key Points; 4. Diodes; 4.1. Introduction; 4.2. Semiconductor Material; 4.2.1. Conductivity and Energy Bands in Semiconductors; 4.2.2. Doping; 4.3 .p-n Junction; 4.4. Diode Current-Voltage Characteristics I-V; 4.4.1. Forward Bias; 4.4.2. Reverse Bias; 4.5. Different Types of Diodes; 4.5.1. Semiconductor Diodes; 4.5.2. Zener Diodes

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