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Practical Electronics for Inventors 4th Edition by Paul Scherz, Simon Monk ISBN 125958755X 9781259587559

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ISBN 10: 125958755X
ISBN 13: 9781259587559
Author: Paul Scherz, Simon Monk

A Fully-Updated, No-Nonsense Guide to Electronics Advance your electronics knowledge and gain the skills necessary to develop and construct your own functioning gadgets. Written by a pair of experienced engineers and dedicated hobbyists, Practical Electronics for Inventors, Fourth Edition, lays out the essentials and provides step-by-step instructions, schematics, and illustrations. Discover how to select the right components, design and build circuits, use microcontrollers and ICs, work with the latest software tools, and test and tweak your creations. This easy-to-follow book features new instruction on programmable logic, semiconductors, operational amplifiers, voltage regulators, power supplies, digital electronics, and more. Practical Electronics for Inventors, Fourth Edition, covers: Resistors, capacitors, inductors, and transformers Diodes, transistors, and integrated circuits Optoelectronics, solar cells, and phototransistors Sensors, GPS modules, and touch screens Op amps, regulators, and power supplies Digital electronics, LCD displays, and logic gates Microcontrollers and prototyping platforms Combinational and sequential programmable logic DC motors, RC servos, and stepper motors Microphones, audio amps, and speakers Modular electronics and prototypes

Practical Electronics for Inventors 4th Table of contents:

Chapter 1: Introduction to Electronics

Chapter 2: Theory

  • 2.1 Theory of Electronics

  • 2.2 Electric Current

    • 2.2.1 Currents in Perspective

  • 2.3 Voltage

    • 2.3.1 The Mechanisms of Voltage

    • 2.3.2 Definition of Volt and Generalized Power Law

    • 2.3.3 Combining Batteries

    • 2.3.4 Other Voltage Sources

    • 2.3.5 Water Analogies

  • 2.4 A Microscopic View of Conduction (for Those Who Are Interested)

    • 2.4.1 Applying a Voltage

  • 2.5 Resistance, Resistivity, Conductivity

    • 2.5.1 How the Shape of a Conductor Affects Resistance

    • 2.5.2 Resistivity and Conductivity

  • 2.6 Insulators, Conductors, and Semiconductors

  • 2.7 Heat and Power

  • 2.8 Thermal Heat Conduction and Thermal Resistance

    • 2.8.1 Importance of Heat Production

  • 2.9 Wire Gauges

  • 2.10 Grounds

    • 2.10.1 Earth Ground

    • 2.10.2 Different Types of Ground Symbols

    • 2.10.3 Loose Ends on Grounding

  • 2.11 Electric Circuits

  • 2.12 Ohm’s Law and Resistors

    • 2.12.1 Resistor Power Ratings

    • 2.12.2 Resistors in Parallel

    • 2.12.3 Resistors in Series

    • 2.12.4 Reducing a Complex Resistor Network

    • 2.12.5 Multiple Voltage Dividers

  • 2.13 Voltage and Current Sources

  • 2.14 Measuring Voltage, Current, and Resistance

  • 2.15 Combining Batteries

  • 2.16 Open and Short Circuits

  • 2.17 Kirchhoff’s Laws

  • 2.18 Superposition Theorem

  • 2.19 Thevenin’s and Norton’s Theorems

    • 2.19.1 Thevenin’s Theorem

    • 2.19.2 Norton’s Theorem

  • 2.20 AC Circuits

    • 2.20.1 Generating AC

    • 2.20.2 Water Analogy of AC

    • 2.20.3 Pulsating DC

    • 2.20.4 Combining Sinusoidal Sources

    • 2.20.5 AC Waveforms

    • 2.20.6 Describing an AC Waveform

    • 2.20.7 Frequency and Period

    • 2.20.8 Phase

  • 2.21 AC and Resistors, RMS Voltage, and Current

  • 2.22 Mains Power

  • 2.23 Capacitors

    • 2.23.1 Determining Capacitance

    • 2.23.2 Commercial Capacitors

    • 2.23.3 Voltage Rating and Dielectric Breakdown

    • 2.23.4 Maxwell’s Displacement Current

    • 2.23.5 Charge-Based Model of Current Through a Capacitor

    • 2.23.6 Capacitor Water Analogy

    • 2.23.7 Energy in a Capacitor

    • 2.23.8 RC Time Constant

    • 2.23.9 Stray Capacitance

    • 2.23.10 Capacitors in Parallel

    • 2.23.11 Capacitors in Series

    • 2.23.12 Alternating Current in a Capacitor

    • 2.23.13 Capacitive Reactance

    • 2.23.14 Capacitive Divider

    • 2.23.15 Quality Factor

  • 2.24 Inductors

    • 2.24.1 Electromagnetism

    • 2.24.2 Magnetic Fields and Their Influence

    • 2.24.3 Self-Inductance

    • 2.24.4 Inductors

    • 2.24.5 Inductor Water Analogy

    • 2.24.6 Inductor Equations

    • 2.24.7 Energy Within an Inductor

    • 2.24.8 Inductor Cores

    • 2.24.9 Understanding the Inductor Equations

    • 2.24.10 Energizing RL Circuit

    • 2.24.11 Deenergizing RL Circuit

    • 2.24.12 Voltage Spikes Due to Switching

    • 2.24.13 Straight-Wire Inductance

    • 2.24.14 Mutual Inductance and Magnetic Coupling

    • 2.24.15 Unwanted Coupling: Spikes, Lightning, and Other Pulses

    • 2.24.16 Inductors in Series and Parallel

    • 2.24.17 Alternating Current and Inductors

    • 2.24.18 Inductive Reactance

    • 2.24.19 Nonideal Inductor Model

    • 2.24.20 Quality Factor

    • 2.24.21 Inductor Applications

  • 2.25 Modeling Complex Circuits

  • 2.26 Complex Numbers

  • 2.27 Circuits with Sinusoidal Sources

    • 2.27.1 Analyzing Sinusoidal Circuits with Complex Impedances

    • 2.27.2 Sinusoidal Voltage Source in Complex Notation

    • 2.27.3 Odd Phenomena in Reactive Circuits

  • 2.28 Power in AC Circuits (Apparent, Real, Reactive Power)

    • 2.28.1 Power Factor

  • 2.29 Thevenin’s Theorem in AC Form

  • 2.30 Resonant Circuits

    • 2.30.1 Resonance in RLC Circuits

    • 2.30.2 Q (Quality Factor) and Bandwidth

    • 2.30.3 Bandwidth

    • 2.30.4 Voltage Drop Across Components in RLC Resonant Circuit

    • 2.30.5 Capacitor Losses

    • 2.30.6 Parallel-Resonant Circuits

    • 2.30.7 The Q of Loaded Circuits

  • 2.31 Lecture on Decibels

    • 2.31.1 Alternative Decibel Representations

  • 2.32 Input and Output Impedance

    • 2.32.1 Input Impedance

    • 2.32.2 Output Impedance

  • 2.33 Two-Port Networks and Filters

    • 2.33.1 Filters

    • 2.33.2 Attenuators

  • 2.34 Transient Circuits

    • 2.34.1 Series RLC Circuit

  • 2.35 Circuits with Periodic Nonsinusoidal Sources

    • 2.35.1 Fourier Series

  • 2.36 Nonperiodic Sources

  • 2.37 SPICE

    • 2.37.1 How SPICE Works

    • 2.37.2 Limitations of SPICE and Other Simulators

    • 2.37.3 A Simple Simulation Example

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