Beginners Guide to Electrical Engineering

Welcome to this beginner’s guide to Electrical Engineering. This series is designed to provide a very simple, non-technical introduction to the fields of engineering for people with no experience in the fields. The electrical engineering for beginners pdf will be covering all fields of engineering, one field at a time.

If what you’re looking for is where you can download the beginners guide to electrical engineering in PDF, then you could get a true feel of the book as you have requested. This book is a wonderful books that you can easily find on most eBooks websites. To download the book, you can download it here. Beginners Guide to Electrical Engineering in Pdf So there you have it, go ahead and gain unlimited access to this book together with other PDF books for free.

The beginner’s guide to engineering is probably one of the most difficult guides to write since every field of engineering can vary so dramatically in terms of theory and applications. In electrical engineering for beginners books we will focus on the electrical engineering branch, which is probably the most popular branch of engineering due to its wide applicability in everyday life.

Welcome to our electrical engineering for dummies pdf. In the first part of this series, I want to focus on exactly what we mean by the term “electrical engineering”. After taking a look at how the common fields of electrical engineering are classified and organized, I will move on to giving some sample tasks a person with this field might be faced with in a professional environment, explaining how these tasks are carried out in detail and giving an overview of different approaches to solving them.

About The Beginners Guide to Electrical Engineering Book

The Beginner’s Guide to Engineering series is designed to provide a very simple, non-technical introduction to the fields of engineering for people with no experience in the fields.

Each book in the series focuses on introducing the reader to the various concepts in the fields of engineering conceptually rather than mathematically.

These books are a great resource for high school students that are considering majoring in one of the engineering fields, or for anyone else that is curious about engineering but has no background in the field.

Books in the series:
1. The Beginner’s Guide to Engineering: Chemical Engineering
2. The Beginner’s Guide to Engineering: Computer Engineering
3. The Beginner’s Guide to Engineering: Electrical Engineering
4. The Beginner’s Guide to Engineering: Mechanical Engineering 

Table of Contents for Beginners Guide To Electrical Engineering


PREFACE
Part I Basic Circuit Analysis
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Basic DC Circuits
Overview and Objectives
1-1 DC Circuit Variables
1-2 A Very Simple DC Circuit
1-3 Measuring DC Circuit Variables
1-4 Power and Energy
1-5 Kirchhoff¿s Laws
1-6 Equivalent Resistance
1-7 Single-Loop or Series Circuit
1-8 Single Node-Pair or Parallel Circuit
1-9 Voltage and Current Divider Rules
Problems
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General DC Circuit Analysis
Overview and Objectives
2-1 Mesh Current Analysis
2-2 Node Voltage Analysis
2-3 Source Transformations
2-4 Thevenin¿s and Norton¿s Theorems
Problems
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Transient Circuits
Overview and Objectives
3-1 Basic Circuit Parameters
3-2 Boundary Conditions for Energy Storage Elements
3-3 First-Order Circuits with DC Excitations
3-4 Inductance and Capacitance
Combinations
Problems
Part II ALTERNATING CURRENT CIRCUITS
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AC Circuits I
Overview and Objectives
4-1 Sinusoidal Functions
4-2 Phasors
4-3 AC Voltage-Current Relationships
4-4 AC Impedance
Problems
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AC Circuits II
Overview and Objectives
5-1 DC and RMS Values
5-2 Complex Power in AC Circuits
5-3 Power Factor Correction
5-4 Admittance
5-5 Resonance
Problems
Part III ELECTRONIC DEVICES AND LINEAR ELECTRONICS
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Diodes and Their Applications
Overview and Objectives
6-1 Semiconductor Concepts
6-2 Junction Diode
6-3 Diode Circuit Models
6-4 Diode Rectifier Circuits
6-5 Rectifier Circuits with Filtering
6-6 Survey of Other Diode Types
6-7 Zener Regulator Circuits
Problems
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Transistors
Overview and Objectives
7-1 Introduction
7-2 Bipolar Junction Transistor
7-3 BJT Operating Regions
7-4 BJT Characteristic Curves
7-5 Brief Look at a Classical BJT Amplifier Circuit
7-6 BJT Switches
7-7 Field Effect Transistor Family
7-8 Junction Field Effect Transistors
7-9 Brief Look at Classical JFET Amplifier
Circuit
7-10 MOSFETs
7-11 FET Switches
7-12 FET Schematic Summary
Problems
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Operational Amplifiers
Overview and Objectives
8-1 Amplifier Properties
8-2 Operational Amplifiers
8-3 Operational Amplifier Circuit
Analysis
8-4 Inverting Amplifier Circuit
8-5 Noninverting Amplifier Circuit
8-6 Operational Amplifier Controlled
Sources
8-7 Circuits That Combine Signals
8-8 Integration and Differentiation
Circuits
8-9 Active Filters
8-10 Voltage Regulation with an Op-Amp
Problems
Part IV DIGITAL ELECTRONICS
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Digital Circuits: Basic Combinational
Forms
Overview and Objectives
9-1 Binary Number System
9-2 Negative Binary Numbers
9-3 Subtraction Using Twos-Complement Numbers
9-4 Hexadecimal Number System
9-5 Octal Number System
9-6 Binary Coded Decimal
9-7 Fundamental Logic Operations
9-8 NAND and NOR Operations
9-9 Boolean Algebra and Switching
Functions
9-10 Boolean Reduction and Karnaugh
Maps
9-11 K-Maps with Don¿t Care
Conditions
9-12 DeMorgan¿s Theorem
9-13 Boolean Expansion
9-14 Exclusive OR and Exclusive NOR
9-15 Logic Diagrams and Combinational
Logic
Problems
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Digital Circuits: Advanced Combinational Forms
Overview and Objectives
10-1 Adders
10-2 Decoders
10-3 Encoders
10-4 Multiplexers
10-5 Integrated-Circuit Digital Logic
Families
Problems
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Digital Circuits: Sequential Forms
Overview and Objectives
11-1 Introduction
11-2 Latch and Flip Flop
Initialization
11-3 Latches
11-4 Flip Flops
11-5 Parallel Registers
11-6 Serial (Shift) Registers
11-7 Counters
11-8 Memories
Problems
Part V POWER SYSTEM FUNDAMENTALS
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Magnetic Circuits
Overview and Objectives
12-1 Magnetism and Electromagnetism
12-2 Flux
12-3 Flux Density
12-4 Magnetomotive Force
12-5 Reluctance
12-6 Determining Magnetic Field Direction of an Electromagnet
12-7 Closed (Circular) Cores
12-8 Magnetic Field Intensity
12-9 Permeability
Problems
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Three-Phase Circuits
Overview and Objectives
13-1 Introduction to Three-Phase
Theory
13-2 Phase Voltages and Line
Voltages
13-3 Three-Phase Sequencing
13-4 Three-Phase Wye and Delta
Connections
13-5 Three-Phase Wye and Delta Load Connections
13-6 Three-Phase Power Calculations
13-7 Comparison of Power Flow in Single- and
Three-Phase Systems
Problems
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Transformers
Overview and Objectives
14-1 Introduction
14-2 The Ideal Transformer
14-3 Transformer Power Losses
14-4 Transformer Efficiency
14-5 Effect of Power Factor on Transformer Performance
14-6 Impedance Reflection
14-7 Impedance Matching Transformers
14-8 Transformer Construction
14-9 Three-Phase Transformers
14-10 Autotransformers
14-11 Instrument Transformers
14-12 Useful Transformer Tips
Problems
Part Vi ELECTRICAL MACHINES
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DC Machines
Overview and Objectives
15-1 Introduction
15-2 Magnetic Induction and the DC
Generator
15-3 Shunt and Compound DC Generator
15-4 Motor Action and the DC Motor
15-5 Shunt, Series, and Compound DC
Motor
15-6 Dynamic Braking of DC Motors
Problems
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AC Machines
Overview and Objectives
16-1 Introduction
16-2 AC Generator (Alternator)
16-3 Three-Phase Induction Motor
16-4 Single-Phase Induction Motor
16-5 Reluctance Motor
16-6 Universal Motor
Problems
Part ViI CURRENT ADDITIONAL TOPICS
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Programmable Logic Controllers
Overview and Objectives
17-1 Introduction
17-2 Introduction to Machine Controls
17-3 Machine Control Components
17-4 Ladder Diagrams
17-5 Latch Circuit
17-6 PLC Types
17-7 PLC Configuration
17-8 PLC Operation
17-9 Fundamental PLC Programming
17-10 PLC Programs with Timers
17-11 Advanced PLC Features
17-12 PLC Wiring
Problems
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Digital Communications
Overview and Objectives
18-1 Introduction and Terminology
18-2 Encoding and Transmission
of Textual Data
18-3 Sampling an Analog Signal
18-4 Pulse Code Modulation
18-5 Analog-to-Digital and Digital-to-Analog Conversion
18-6 Modulation Methods
18-7 M-ary Encoding
Problems
Part ViII MULTISIM LABORATORY
Notational Differences
Introduction
Primer
MultiSIM Examples for Chapter 1
MultiSIM Examples for Chapter 2
MultiSIM Examples for Chapter 3
MultiSIM Examples for Chapter 4
MultiSIM Examples for Chapter 5
MultiSIM Examples for Chapter 6
MultiSIM Examples for Chapter 7
MultiSIM Examples for Chapter 8
MultiSIM Examples for Chapter 9
MultiSIM Examples for Chapter 10
MultiSIM Examples for Chapter 11
MultiSIM Examples for Chapter 13
MultiSIM Examples for Chapter 14
MultiSIM Examples for Chapter 15
MultiSIM Examples for Chapter 16
MultiSIM Examples for Chapter 17
MultiSIM Examples for Chapter 18
Appendix A Solving Simultaneous
Equations
Appendix B Complex Numbers
B-1 Addition and Subtraction of Complex Numbers
B-2 Multiplication and Division
Answers to Selected Odd-Numbered
Problems
Index

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