Electronics Fundamentals: A Systems Approach

Cover
Title Page
Copyright Page
Contents
PREFACE
PART I: DC CIRCUITS
1 SYSTEMS, QUANTITIES, AND UNITS
1–1 The Electronics Industry
1–2 Introduction to Electronic Systems
1–3 Types of Circuits
1–4 Scientific and Engineering Notation
1–5 Units and Metric Prefixes
1–6 Metric Unit Conversions
1–7 Measured Numbers
1–8 Electrical Safety
2 VOLTAGE, CURRENT, AND RESISTANCE
2–1 Atoms
2–2 Electrical Charge
2–3 Voltage
2–4 Current
2–5 Resistance
2–6 The Electric Circuit
2–7 Basic Circuit Measurements
3 OHM’S LAW, ENERGY, AND POWER
3–1 Ohm’s Law
3–2 Application of Ohm’s Law
3–3 Energy and Power
3–4 Power in an Electric Circuit
3–5 The Power Rating of Resistors
3–6 Energy Conversion and Voltage Drop in a Resistance
3–7 Power Supplies and Batteries
3–8 Introduction to Troubleshooting
4 SERIES CIRCUITS
4–1 Resistors in Series
4–2 Total Series Resistance
4–3 Current in a Series Circuit
4–4 Application of Ohm’s Law
4–5 Voltage Sources in Series
4–6 Kirchhoff’s Voltage Law
4–7 Voltage Dividers
4–8 Power in Series Circuits
4–9 Voltage Measurements
4–10 Troubleshooting
5 PARALLEL CIRCUITS
5–1 Resistors in Parallel
5–2 Total Parallel Resistance
5–3 Voltage in a Parallel Circuit
5–4 Application of Ohm’s Law
5–5 Kirchhoff’s Current Law
5–6 Current Dividers
5–7 Power in Parallel Circuits
5–8 Troubleshooting
6 SERIES-PARALLEL CIRCUITS
6–1 Identifying Series-Parallel Relationships
6–2 Analysis of Series-Parallel Resistive Circuits
6–3 Voltage Dividers with Resistive Loads
6–4 Loading Effect of a Voltmeter
6–5 The Wheatstone Bridge
6–6 Thevenin’s Theorem
6–7 The Maximum Power Transfer Theorem
6–8 The Superposition Theorem
6–9 Troubleshooting
7 MAGNETISM AND ELECTROMAGNETISM
7–1 The Magnetic Field
7–2 Electromagnetism
7–3 Electromagnetic Devices
7–4 Magnetic Hysteresis
7–5 Electromagnetic Induction
7–6 DC Generators
7–7 DC Motors
PART II: AC CIRCUITS
8 INTRODUCTION TO ALTERNATING CURRENT AND VOLTAGE
8–1 The Sinusoidal Waveform
8–2 Voltage and Current Values of Sine Waves
8–3 Angular Measurement of a Sine Wave
8–4 The Sine Wave Formula
8–5 Analysis of AC Circuits
8–6 Alternators (AC Generators)
8–7 AC Motors
8–8 Nonsinusoidal Waveforms
8–9 The Oscilloscope
8–10 Signal Sources
9 CAPACITORS
9–1 The Basic Capacitor
9–2 Types of Capacitors
9–3 Series Capacitors
9–4 Parallel Capacitors
9–5 Capacitors in DC Circuits
9–6 Capacitors in AC Circuits
9–7 Capacitor Applications
10 RC CIRCUITS
10–1 Sinusoidal Response of Series RC Circuits
10–2 Impedance and Phase Angle of Series RC Circuits
10–3 Analysis of Series RC Circuits
10–4 Impedance and Phase Angle of Parallel RC Circuits
10–5 Analysis of Parallel RC Circuits
10–6 Analysis of Series-Parallel RC Circuits
10–7 Power in RC Circuits
10–8 Basic Applications
10–9 Troubleshooting
11 INDUCTORS
11–1 The Basic Inductor
11–2 Types of Inductors
11–3 Series and Parallel Inductors
11–4 Inductors in DC Circuits
11–5 Inductors in AC Circuits
11–6 Inductor Applications
12 RL CIRCUITS
12–1 Sinusoidal Response of RL Circuits
12–2 Impedance and Phase Angle of Series RL Circuits
12–3 Analysis of Series RL Circuits
12–4 Impedance and Phase Angle of Parallel RL Circuits
12–5 Analysis of Parallel RL Circuits
12–6 Analysis of Series-Parallel RL Circuits
12–7 Power in RL Circuits
12–8 RL Filters
12–9 Troubleshooting
13 RLC CIRCUITS AND RESONANCE
13–1 Impedance and Phase Angle of Series RLC Circuits
13–2 Analysis of Series RLC Circuits
13–3 Series Resonance
13–4 Series Resonant Filters
13–5 Parallel RLC Circuits
13–6 Parallel Resonance
13–7 Parallel Resonant Filters
13–8 Resonant Circuit Applications
14 TRANSFORMERS
14–1 Mutual Inductance
14–2 The Basic Transformer
14–3 Step-Up and Step-Down Transformers
14–4 Loading the Secondary
14–5 Reflected Load
14–6 Impedance Matching
14–7 Transformer Ratings and Characteristics
14–8 Tapped and Multiple-Winding Transformers
14–9 Troubleshooting
15 TIME RESPONSE OF REACTIVE CIRCUITS
15–1 The RC Integrator
15–2 Response of RC Integrators to a Single Pulse
15–3 Response of RC Integrators to Repetitive Pulses
15–4 Response of RC Differentiators to a Single Pulse
15–5 Response of RC Differentiators to Repetitive Pulses
15–6 Response of RL Integrators to Pulse Inputs
15–7 Response of RL Differentiators to Pulse Inputs
15–8 Integrator and Differentiator Applications
15–9 Troubleshooting
PART III: ELECTRONIC DEVICES
16 DIODES AND APPLICATIONS
16–1 Introduction to Semiconductors
16–2 The Diode
16–3 Diode Characteristics
16–4 Diode Rectifiers
16–5 Power Supplies
16–6 Special-Purpose Diodes
16–7 Troubleshooting
17 TRANSISTORS AND APPLICATIONS
17–1 DC Operation of Bipolar Junction Transistors (BJTs)
17–2 BJT Class A Amplifiers
17–3 BJT Class B Amplifiers
17–4 The BJT as a Switch
17–5 DC Operation of Field-Effect Transistors (FETs)
17–6 FET Amplifiers
17–7 Feedback Oscillators
17–8 Troubleshooting
18 THE OPERATIONAL AMPLIFIER
18–1 Introduction to the Operational Amplifier
18–2 The Differential Amplifier
18–3 Op-Amp Parameters
18–4 Negative Feedback
18–5 Op-Amp Configurations with Negative Feedback
18–6 Op-Amp Resistances
18–7 Troubleshooting
19 BASIC OP-AMP CIRCUITS
19–1 Comparators
19–2 Summing Amplifiers
19–3 Integrators and Differentiators
19–4 Oscillators
19–5 Active Filters
19–6 Voltage Regulators
20 SPECIAL-PURPOSE OP-AMP CIRCUITS
20–1 Instrumentation Amplifiers
20–2 Isolation Amplifiers
20–3 Operational Transconductance Amplifiers (OTAs)
20–4 Active Diode Circuits
20–5 Current Sources and Converters
21 MEASUREMENT, CONVERSION, AND CONTROL
21–1 Temperature Measurement
21–2 Strain, Pressure, and Flow Rate Measurements
21–3 Motion Measurement
21–4 Sample-and-Hold Circuits
21–5 Analog-to-Digital Conversion
21–6 Power-Control Circuits
APPENDICES
A: Table of Standard Resistor Values
B: Capacitor Color Coding and Marking
C: Norton’s Theorem and Millman’s Theorem
D: Field-Programmable Analog Arrays (FPAAs)
E: NI Multisim for Circuit Simulation
ANSWERS TO ODD-NUMBERED PROBLEMS
GLOSSARY
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INDEX
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