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Electronic Design Course, DVD. Why You Need This Course SEE VIDEO

$ 46.45

Availability: 79 in stock
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  • Format: DVD
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    Description

    Rapid Practical Electronic Design - DVD and Text
    Why Buy From Us:
    You are supporting someone on the Invincible America Assembly for creating national peace and reduction in crime.
    Suitable for Windows XP or later computer
    Why You Need This Course
    If all you want to do is tinker, you don't need this course. But the field of electronics is so vast, if you want to design electronic circuits and not waste time studying what you don't need to know, you need to follow a path from someone who can teach you what you need to know, and not teach you what you don't need to know.
    What You Get:
    43 Lesson Video Course with over 10 hours of video.
    220 page file that provides text of the video course.
    No-risk 30-day money back guarantee if not satisfied for any reason.
    RPED - You Need a Path - YouTube
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    Requirements: Algebra and Trigonometry
    Table of Contents
    Resistors 6
    Chapter 1: Properties of Resistors 7
    Resistor Color Code 8
    Ohm's Law 10
    Resistor Power Derating Curve 10
    Difference Between Power and Energy 11
    Power in a Resistor 12
    Noise in a Resistor 12
    Resistor Types and Properties 14
    Resistor Table 15
    Potentiometers 16
    Resistor Networks 18
    Batteries in Series and Parallel 18
    Resistors in Series and Parallel 18
    Analyzing a Simple Battery and Resistor Circuit 19
    Analyzing a Simple Battery and Two Resistor Circuit 21
    Solving Resistor Networks 22
    Kirchhoff's Circuit Laws 22
    Voltage Division 22
    Source Transformation 23
    Thevenin's Theorem 26
    Kirchhoff”s Loop Equations 27
    Chapter 1 Summary 29
    Chapter 1 Problems 31
    Chapter 2: Calculus Simplified 35
    What Is Calculus 35
    What is a Derivative? 35
    How to Take a Derivative 37
    What is Integration? 39
    Notation 39
    The Indefinite Integral 40
    The Definite Integral Finds the Area Under the Curve 40
    Using WolframAlpha.com to Integrate and Differentiate 41
    Chapter 2 Summary 42
    Chapter 2 Problems 43
    Chapter 3: Important Math Functions 46
    The Exponential Function
    e
    x
    and the Mathematical Constant e 46
    How to Take the Derivative and Integral of
    e
    x
    47
    Imaginary and Complex Numbers 47
    Why Imaginary Numbers Produce Solutions to Real-Life Engineering Problems 48
    Euler's Formula and Euler's Identity 51
    How to Add, Subtract, Multiply, and Divide Complex Numbers 52
    Chapter 3 Summary 55
    Chapter 3 Problems 56
    Chapter 4: Some Important Concepts 59
    Waveform Terminology 59
    Waveforms: Sine, Square, Triangle, Exponential, and Sawtooth 59
    Fourier Theory 59
    Superposition 60
    Frequency 61
    Root Mean Square (RMS), Effective, Average, and Peak voltage 64
    AC vs. DC 66
    Decibels 67
    Specifying Relative Power and Voltage Ratios 67
    Specifying Absolute Power and Voltage Levels 68
    Bandwidth 71
    Power Delivered to a Load 72
    Chapter 4: Summary 75
    Chapter 4: Problems 77
    Chapter 5: Capacitors 80
    Combining Capacitors 81
    Capacitor Properties 82
    How to Select Your Capacitor 84
    Ceramic Capacitors 85
    Class 1 Capacitors 85
    Class 2 Capacitors 88
    Class X, Class Y, and Class X/Y Safety Capacitors 89
    Electrolytic Capacitors 90
    Tantalum Capacitors 91
    Film Capacitors 91
    Other Capacitor Factors 93
    ESR Equivalent Series Resistance 93
    Ripple Current 93
    Dissipation Factor 94
    Self Resonant Frequency 94
    Capacitor Rules of Thumb 95
    Chapter 5: Summary 96
    Chapter 5: Problems 97
    Chapter 6: Inductors 100
    Inductor Properties 101
    Combining Inductors 102
    How to Select an Inductor 103
    Chapter 7: Resistance, Reactance, and Impedance 106
    Chapter 8: AC RC, RL, LC, and RLC Networks 108
    How to Solve AC Networks 108
    RC Low Pass Filter 108
    Bode Plot for RC Low Pass Filter 113
    Phasors Explained 114
    How to Construct a Phasor Diagram 119
    RC High Pass Filter 121
    Bode Plot for RC High Pass Filter 122
    RL Low Pass Filter 123
    RL High Pass Filter 125
    How to Use the Laplace Variable s to Plot Bode Plots 126
    RLC and LC Network Using the Laplace Variable s 127
    Oscillation and step response of resonant circuit 129
    Resonance 129
    Solving a Parallel Network 133
    Filters 136
    Chapter 8: Problems 137
    Chapter 9: Power, Real, Apparent, and Reactive. Power Factor 141
    Chapter 9: Summary 148
    Chapter 10: Transient Response of RC and RL Networks 149
    Transient Response for a Capacitor 149
    Transient Response for an Inductor 152
    Time Constant 153
    Rise Time
    t
    R
    , Slew Rate, and Bandwidth BW 154
    Gain Bandwidth Product GBP 154
    Chapter 10: Summary 155
    Chapter 10: Problems 156
    Chapter 11: Semiconductor Devices 158
    Diodes 158
    General Purpose Silicon Diodes 160
    Bridge Rectifier 160
    Schottky Diodes for Switching Power Supplies 162
    Germanium Diodes 163
    Zener Diodes 163
    Transient Suppressor Diodes (TVS) 165
    LED's (Light Emitting Diodes) 165
    Bipolar Transistors (BJTs) 168
    The Three Transistor Configurations: Common Emitter, Common Base, and Common Collector 170
    How a Transistor Increases the Base Input Resistance 171
    Why Feedback is Required for a Practical Amplifier 172
    Design of a Common Collector Stage 173
    Properties of the Base-Emitter Junction: Shockley's Equation 174
    Design of a Common Base Stage 174
    Design of a Common Emitter Stage 176
    Darlington Transistors 180
    Miller Capacitance 181
    Cascode Configuration - Remedy for Miller Effect 181
    Baker Clamp Anti-Saturation Circuit 182
    Current Source 182
    Current Mirror 183
    Differential Amplifier Configuration 183
    Driving a Relay 184
    Transistor Testing 185
    Field Effect Transistors (FETs) 185
    Insulated Gate Bipolar Transistors (IGBTs) 188
    Thyristors 188
    The SCR 189
    The Triac 190
    The Diac 191
    The Rate Effect 192
    Steps to Designing a Snubber 194
    Operational Amplifiers (Op Amps) 195
    The Single Formula Technique 197
    Choosing an Op Amp 198
    Practical Considerations 201
    Opto-Isolators 203
    Transformers 204
    Power Supplies 206
    The 78xx Linear Regulators 206
    The 79xx Negative Voltage Regulators 207
    Digital Logic Electronics 208
    How to Select a Fuse 211
    The 555 Timer and How to Build an Oscillator. Crystal Oscillator 213
    Arduino Microcomputer Basics 216
    Miscellaneous 217
    Soldering 217
    List of Some Equations to Remember 218
    List of Calculators 218
    END 220
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