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| Electronics
and Electric Circuits CD |
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Courses
/ Manuals
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also include review questions and answers.
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the CD and the topics contained in each course and manual. |
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***
Lots of information and diagrams, more details
of
each course and manual are below ***
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Ultimate Guide to Electric Circuits
Manual |
| Table
of Contents |
Course
- Alternating Current (AC)
Chapter 1: Basic AC Theory
Chapter 2: Complex Numbers
Chapter 3: Reactance and Impedance - Inductive
Chapter 4: Reactance and Impedance - Capacitance
Chapter 5: Reactance and Impedance - R, L, and C
Chapter 6: Resonance
Chapter 7: Mixed-Frequency AC Signals
Chapter 8: Filters
Chapter 9: Transformers
Chapter 10: Polyphase AC Circuits
Chapter 11: Power Factor
Chapter 12: AC Metering Circuits
Chapter 14: Transmission Lines
Course - Direct Current (DC)
Chapter 1: Basic Concepts of Electricity
Chapter 2: Ohm's Law
Chapter 3: Electrical Safety
Chapter 4: Scientific Notation and Metric Prefixes
Chapter 5: Series and Parallel Circuits
Chapter 6: Divider Circuits and Kirchhoff's Laws
Chapter 7: Series-Parallel Combination Circuits
Chapter 8: DC Metering Circuits
Chapter 9: Electrical Instrumentation Signals
Chapter 10: DC Network Analysis
Chapter 11: Batteries and Power Systems
Chapter 12: The Physics of Conductors and Insulators
Chapter 13: Capacitors
Chapter 14: Magnetism and Electromagnetism
Chapter 15: Inductors
Chapter 16: RC and L/R Time Constants
Course - Digital Circuits
Chapter 1: Numeration Systems
Chapter 2: Binary Arithmetic
Chapter 3: Logic Gates
Chapter 4: Switches
Chapter 5: Electromechanical Relays
Chapter 6: Ladder Logic |
Chapter 7: Boolean Algebra
Chapter 10: Multivibrators
Chapter 11: Counters
Chapter 14: Digital Communication
Chapter 15: Digital Storage (Memory)
Chapter 16: Principles of Digital Computing
Course - Semiconductors
Chapter 1: Amplifiers and Active Devices
Chapter 2: Solid-State Device Theory
Chapter 3: Diodes and Rectifiers
Chapter 4: Bipolar Junction Transistors
Chapter 5: Junction Field-Effect Transistors
Chapter 6: Insulated-Gate Field-Effect Transistors
Chapter 7: Thyristors
Chapter 8: Operational Amplifiers
Chapter 9: Practical Analog Semiconductor Circuits
Chapter 13: Electron Tubes
Course - Electrical Experiments
Chapter 1: Introduction
Chapter 2: Basic Concepts and Test Equipment
Chapter 3: DC Circuits
Chapter 4: AC Circuits
Chapter 5: Discrete Semiconductor Circuits
Chapter 6: Analog Integrated Circuits
Chapter 7: Digital Integrated Circuits
Reference
Chapter 1: Useful Equations and Conversion Factors
Chapter 2: Resistor Color Codes
Chapter 3:Conductor and Insulator Tables
Chapter 4: Algebra Reference
Chapter 5: Trigonometry Reference
Chapter 6: Calculus Reference
Chapter 7: Using the Spice Circuit Simulation Program
Chapter 8: Troubleshooting - Theory and Practice
Chapter 9: Circuit Schematic Symbols
Chapter 10: Periodic Table of Elements |
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| Electricity,
Circuits, Capacitance, Inductance Course |
| Table
of Contents
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Course - Introduction to Electricity
Lesson: Introduction to Electricity
Practice Exercise
Course - Basic Electricity
Lesson: Basic Electricity
Course - Basic Electrical Circuits
Lesson: Basic Electrical Circuits |
Course - Capacitance
Lesson: Capacitance
Course - Inductance
Lesson: Inductance
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| Basic
Electricity Mathematics Course |
| Table
of Contents
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Lesson
1: Algebra
The Arithmetic
The Mathematics
Review Exercises
Lesson 2: Logarithms
Terminology
Procedures
Powers of Ten
Review Exercises
Lesson 3: Trigonometry
Derivation
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Trigonometric
Functions
Review Exercises
Lesson
4: Vector Algebra
Vector Quantities
Vector Notation
Resultant Vectors
Vector Representation
Calculations
Raising a Vector to a Power
Root of a Vector
Review Exercises |
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| Basic
Electricity I Course |
| Table
of Contents
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Lesson
1: Electron Theory and Magnetism
Electron Theory
Basic Concepts of Matter
Molecules
Atoms
Ions and Ionization
Static Electricity
Conductors and Insulators
Distribution of Charges on Objects
Electrostatic Shielding
Magnetism
History and Definition
Forces Between Poles
Magnetic Fields
Terrestrial Magnetism
Theory of Permanent Magnets
Electromagnetism
Review Exercises
Lesson 2: Circuits
An Electric Circuit
Terminology
Kinds of Circuits
Electrical Measurements
Terminology
Ampere
Ohm
Volt
Watt
Practical Values of Electrical Terms
Electromotive Force
Current
Resistance
Fixed
Adjustable
Variable
Laws
Ohm's Law
Kirchoff's Laws
Power
Special-Case Problem Solving
Review Exercises
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Lesson
3: Direct and Alternating Currents
Definition
Direct Current
Alternating Current
History
Generation of Current and Voltage by an AC System
Principles
Generation of AC Voltage
Graphic Representation of AC
Frequency of AC Voltage and Current Waves
Angular Motion
Amplitude
Determining Amplitude
Effective AC Voltage
Phase
Combining AC Voltage
Review Exercises
Lesson 4: Capacitance and Inductance
Capacitance
Measure of Capacitance
Physical Characteristics
Series Connection
Parallel Connection
Capacitive Reactance
Phase Relationship in a Pure Capacitive Circuit
Types of Capacitors
Inductance
Unit of Induction
Phase Relationship in a Pure Inductance
Inductive Reactance
Series and Parallel Connection of Inductors
Factors Determining Size of Inductance
Series Resistive and Capacitive Circuits
Power Dissipation in RC Circuits
Effect of Frequency Change in RC Circuits
Series Resistive and Inductive Circuits
Power Dissipation in RL Circuits
Effect of Frequency Change in RL Circuits
Review Exercises |
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| Basic
Electricity II Course |
| Table
of Contents
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Lesson
1: Resonance and Transience
Introduction
Resonance
Series
Parallel
Mechanical Analogies
Summary of Series and Parallel Resonance
Transience
Time Constants and Transience
Review of Simple Circuits
Time Constants
Practice Exercises
Lesson 2: Filters
Characteristics
Description
Configurations
Purpose
Operation
Filter Design
Process
Power Supplies
Resistor-Capacitor Filter Circuits
Low-Pass Filters
High-Pass Filters
Band-Pass Filters
Band-Rejection Filters
Practice Exercises
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Lesson
3: Generators and Motors
DC Generators and Motors
Generators
Motors
Series DC Motor
AC Generators and Motors
Generators
Motors
Practice Exercises
Lesson 4: Transformers
Use
Basic Principles
Transformer Ratios
Phase Relationships
Mutual Inductance
Coefficient of Coupling
Transformer Losses
Power of Transformers
Audio Transformers
Radio Frequency Transformers
Saturable Transformers
Practice Exercises
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| Basic
Electronics Course |
| Table
of Contents
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Lesson
1: Basic Electronics
Task 1: Describe the elements of electricity, safety requirements,
voltage, current, resistance functions. Ohm's law, and resistor
color codes
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Task
2: Describe series, parallel, and series-parallel circuits,
compute and measure voltage, and the current of batteries
connected in series-parallel circuits
Practice Exercise |
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| Electronics
I Course |
| Table
of Contents |
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Lesson
1: Basic Vacuum Tubes
Development of Vacuum Tube
Diode Tube
Operation of Diode Tube
Construction of Diode Tube
Electrical Parameters of Diodes
Transit Time
Triode Tube
Construction of Triode Tube
Operation of Triode Tube
Types of Biasing
Tube Constants
Transit Time
Amplification Factor (Mu)
Transconductance
Interelectrode Capacitance
Multiple Element Tubes
Tetrode Tube
Pentode Tube
Lesson 2: Special Purpose Tubes
Multiunit and Multielectrode Tubes
Beam Power and Power Pentode Tubes
Variable Mu Tubes
Special Ultrahigh-frequency (UHF) Tubes
Types of UHF Tubes
Gas-filled Tubes
Electrical Conduction in Gas Diodes
Gas Triode
Cold-cathode Tubes
Cathode Ray Tubes
Electron Gun
CRT Screen
Deflection System
Safety
Electron Tubes
Cathode Ray Tubes
Conventional Tubes
Lesson 3: Power Supplies
Basic Power Supply
Transformers
Rectifiers
Filters
Regulators
Troubleshooting Power Supply
Testing
Component Problems
Lesson 4: Fundamentals of Amplifiers
Classification of Amplifiers
Use
Coupling Between Stages
Operating Conditions
Frequency Range
Cathode Follower
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Lesson
5: Oscillators
Introduction to Sinusoidal Oscillators
Application
Basic Principles
Requirements
Introduction to Nonsinusoidal Oscillators
Gas Diode Oscillators
Thyratron Sawtooth Oscillators
Lesson 6: Amplitude Modulation
Types of Transmitters
Simple Unmodulated Transmitters
Practical Transmitters
Definition of Terms
Modulation
Carrier
Intelligence
Methods of Modulating Carrier
Plate Modulation
Grid Modulation
Levels of Modulation
Sidebands
Percentage of Modulation
100-percent Modulation
Overmodulation
Distribution of Power in a Modulated Wave
Disadvantages of Amplitude Modulation
Lesson 7: Superheterodyne Receivers
Development of Superheterodyne Receiver
Beat Frequencies
Basic Stages of Superheterodyne Receiver
Radio-frequency Amplifier Stage
Frequency Conversion Stage
Intermediate-frequency Amplifier Stage
Detector Stage
Audio Amplification Stage
Sound Reproduction Stage
Schematic Representation of Superheterodyne Receiver
Antenna Input and RF Amplifier
Local Oscillator
Mixer
IF Amplifier
Detector, AVC, and First Audio-frequency Amplifier
AF Power Amplifier
Power Supply
Frequency Tracking
Selectivity of Superheterodynes
Selection of Intermediate Frequency
IF Transformer Construction
Automatic Volume Control
Circuit Operation
Delayed Automatic Volume Control
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| Electronics
II Course |
| Table
of Contents
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Lesson
1: Frequency Modulation
Exercises for Lesson 1
Lesson 2: Limiters and Discriminators
Exercises for Lesson 2
Lesson 3: Special Purpose Oscillators
Exercises for Lesson 3
Lesson 4: Multivibrators and Phantastrons
Exercises for Lesson 4
Lesson 5: Sweep Generators
Exercises for Lesson 5
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Lesson 6: Transmission Lines and Waveguides
Exercises for Lesson 6
Lesson 7: Antennas
Exercises for Lesson 7
Lesson 8: High Frequency Oscillators and Pulse Modulators
Exercises for Lesson 8
Lesson 9: Synchro and Servo Systems
Exercises for Lesson 9
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| Electron
Tubes and Solid-State Devices Course |
| Table
of Contents
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Lesson
1: Electron Tubes and Solid-State Devices
Practice Exercise
Lesson 2: Radio Transmission and Reception
Practice Exercise
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Lesson 3: Radio Set Components
Practice Exercise
Lesson 4: Electronic Diagrams
Practice Exercise |
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| Electron
Tubes Course |
| Table
of Contents
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Lesson
1: Electron Emission
Practice Exercise 1
Lesson 2: Diodes
Practice Exercise 2
Lesson 3: Triode Fundamental
Practice Exercise 3
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Lesson 4: Triode Characteristics and Constants
Practice Exercise 4
Lesson 5: Multi-element Tubes
Practice Exercise 5
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| Transistors
and Semiconductors Course |
| Table
of Contents
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Lesson
1: Introduction to Transistors and Semiconductors
Exercises for Lesson 1
Lesson 2: Theory of Transistors and Semiconductors
Exercises for Lesson 2
Lesson 3: Semiconductor Diode Rectifiers and Transistor
Amplifier Fundamentals
Exercises for Lesson 3
Lesson 4: Bias Stabilization
Exercises for Lesson 4
Lesson 5: Transistor Amplifiers
Exercises for Lesson 5
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Lesson 6: Oscillators and Multivibrators
Exercises for Lesson 6
Lesson 7: Triggered and Gating Circuits
Exercises for Lesson 7
Lesson 8: Modulation and Demodulation
Exercises for Lesson 8
Lesson 9: Special Purpose Semiconductor Devices
Exercises for Lesson 9
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| Logic
Circuits and Devices Course |
| Table
of Contents
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Lesson
1: Describe the Electronic Parameters of Logic
Learning Event 1: Identify the Use of Positive and Negative
Logic Circuits
Learning Event 2: Describe Negative and Positive Logic Circuits
Learning Event 3: Identify State Indicator and Inverter Symbols
Learning Event 4: Identify the OR and the AND Symbol
Practice Exercise
Lesson 2: Describe Logic Systems
Learning Event 1: Define a Logic System
Learning Event 2: Identify an OR Gate and the Inverter Combination
Learning Event 3: Identify an AND Gate and the Inverter Combination
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Learning
Event 4: Explain How Combinations of Gates Can Change Functions
Practice Exercise
Lesson
3: Describe Basic Logic Circuits
Learning Event 1: Identify a Two Switch as a Logic OR Gate
Learning Event 2: Identify a Two Switch as an AND Gate
Learning Event 3: Define a NOR or NAND Circuit
Learning Event 4: Compare a Negative and Positive Logic Circuit
Practice Exercise
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| Electrical
/ Electronic Safety Course |
| Table
of Contents
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Lesson:
Electrical/Electronic Safety
Introduction
General Information
Electrical/Electronic Hazards
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Electrical/Electronic Equipment
Troubleshooting
First Aid
Summary
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