The Complete Electronics Course 2022: Analog Hardware Design
Last updated 6/2022
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
Language: English | Size: 6.59 GB | Duration: 24h 17m
Last updated 6/2022
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
Language: English | Size: 6.59 GB | Duration: 24h 17m
Over 30.000+ enrolled! Learn Electronics from Zero To An Advanced Understanding of How Circuits Work !
What you'll learn
Electronics from Zero to an Advanced Level of Understanding How Electronic Circuits Work.
Starting with Ohm's Law, we will progressively build more and more complex circuits.
More than 100+ circuits covered and explained.
Learn to build Analog Circuits from scratch.
A computer in order to simulate the circuits that we are going to build together.
A basic understanding of mathematics.
This course covers two years of knowledge that you could acquire if you were attending a BSc so you will need to have a bit of patience.
A moderate understanding of English even though the author tries to explain everything as simply as possible.
Have you ever wondered why understanding electronics is difficult? Is it because electronics is really that difficult? Or is it because teachers' explanations are difficult to understand and they use outdated teaching methods? Whatever is the case, Hardware Academy is here to provide high-quality courses that will cover 2 years of educational courses that you could get by attending a BSc in Electrical Engineering. We will start from the fundamentals and as we progress, we will try to understand more and more complicated circuits (which you will find out later that there are not even that complicated !). Each chapter will have multiple exercises (questions with multiple answers) that you will have to complete (like a test) so that we know if you have paid attention or not and if you succeed, you can proceed further with the courses. The simulator that we will use is available for free for everyone and based on multiple reviews, the simulator that we are going to use is the best tool if you want to understand how circuits work! (and it's so much fun to use it ! ) We can guarantee that you will understand each course since we tried hard to explain in the most coherent way (also in the simplest way but at the same time reaching more complex topics) using one of the best software to simulate the circuits which will be an eye-opener for you. Start learning Electronics with us today!
Section 1: Welcome to Electronics !
Lecture 1 Introduction
Lecture 2 The Story of Electricity
Lecture 3 What is Electricity ?
Lecture 4 What is Electric Current ?
Lecture 5 What is Electronics ?
Lecture 6 Looking inside Electronic Devices
Section 2: Understanding Electricity
Lecture 7 What you will learn
Lecture 8 Pondering the Wonder of Electricity
Lecture 9 Atoms Introduction
Lecture 10 Examining the Elements - Periodic Table
Lecture 11 Charge and Electromagnetism
Lecture 12 Conductors and Insulators
Lecture 13 Electric Current Flow
Section 3: Simulator Tutorial
Lecture 14 Setting up the simulator
Lecture 15 How to get started !
Section 4: FUNDAMENTALS
Lecture 16 So, what is voltage anyway?
Lecture 17 Direct Current(DC) vs Alternating Current(AC)
Lecture 18 How to measure voltage and current in a circuit?
Lecture 19 Resistor Introduction
Lecture 20 Resistors in Series & Parallel
Lecture 21 Ohm's Law
Lecture 22 What is voltage drop in an electric circuit?
Lecture 23 Voltage Divider
Lecture 24 Voltage Divider under Load
Lecture 25 Light Emitting Diode (LED)
Lecture 26 Current Limiting Resistor with LED
Section 5: Kirchhoff's circuit laws
Lecture 27 Why we need Kirchhoff's circuit laws ?
Lecture 28 Kirchhoff's Rules
Lecture 29 Kirchhoff's Current Law
Lecture 30 Kirchhoff's Voltage Law
Lecture 31 Problem-Solving Strategy: Kirchhoff's Rules
Lecture 32 Circuit Analysis using Kirchhoff's Rules - Part I
Lecture 33 Circuit Analysis using Kirchhoff's Rules - Part II
Section 6: Electric Power P[W] Fundamentals
Lecture 34 Electric Power - Introduction
Lecture 35 Wattage
Lecture 36 Calculating Power
Lecture 37 Resistor Power Ratings
Section 7: Alternating Current (AC)
Lecture 38 Why we get AC signal from the wall-socket ?
Lecture 39 AC - Important Characteristics
Lecture 40 Root mean square voltage (Vrms)
Section 8: Capacitors
Lecture 41 Capacitor Introduction
Lecture 42 How a Capacitor Is Made
Lecture 43 Types of Capacitors
Lecture 44 How a Capacitor Works (in a DC circuit)
Lecture 45 Calculating Charge, Voltage, and Current
Lecture 46 Capacitor in an AC circuit
Lecture 47 Impedance and Reactance of a Capacitor
Lecture 48 Caps w/ Various Frequencies (Impedance Overview)
Lecture 49 Caps of Various Capacitances
Lecture 50 Coupling capacitors
Lecture 51 Decoupling capacitors
Lecture 52 Why to place multiple bypass capacitors in parallel?
Lecture 53 Smoothing capacitors
Section 9: RC Time Constant
Lecture 54 RC Time Constant
Lecture 55 RC Circuits: Charging,Discharging,Signal Filtering
Lecture 56 Application Examples
Section 10: Inductors
Lecture 57 Inductor - Introduction
Lecture 58 Types of Inductors
Lecture 59 Inductors in Series and Parallel
Lecture 60 Inductor Behavior in a DC circuit
Lecture 61 What is back E.M.F and how to control it?
Lecture 62 Inductor Behavior in an AC circuit
Lecture 63 Inductive Reactance
Lecture 64 Inductors w/ Various Frequencies
Lecture 65 Inductors of Various Inductances
Lecture 66 Impedances of Same Magnitude
Lecture 67 Series RLC Resonance
Lecture 68 Transformers - (Step-Down, Step-Up, Isolation)
Lecture 69 Long-Distance Power Transmission
Section 11: Diodes
Lecture 70 Diode Introduction
Lecture 71 Operating Regions of a Diode
Lecture 72 Looking into the datasheet
Lecture 73 Types of Diodes
Lecture 74 Current through a diode
Lecture 75 Diode as voltage reference
Lecture 76 Identifying the terminals of a real-life diode
Lecture 77 Half-Wave Rectifier Circuit /w Filter Capacitor
Lecture 78 Full-Wave Rectifier - Center Tapped and Diode Bridge
Lecture 79 Voltage Multiplier, Voltage Doubler, Tripler
Lecture 80 Signal Rectifier, Diode Gates, Diode Clamp circuits
Lecture 81 Zener diodes and its applications
Section 12: More Circuits with Diodes !
Lecture 82 Diode Limiter (Clapping Circuit)
Lecture 83 Clamper Circuit (DC Restoration)
Lecture 84 Spike Generator (Using RC Circuit)
Lecture 85 Voltage Doubler / Tripler
Section 13: Input and Output Impedance of a Circuit
Lecture 86 Input Impedance of a Circuit
Lecture 87 Output Impedance of a Circuit
Lecture 88 Impedance Matching (Transmission Line)
Lecture 89 How to measure the input impedance
Lecture 90 How to measure the output impedance
Section 14: First order filters
Lecture 91 What is a filter?
Lecture 92 RC Low Pass Filter
Lecture 93 RL Low Pass Filter
Lecture 94 What is the -3db point?
Lecture 95 How to calculate filter response ?
Lecture 96 Second order Low Pass Filter
Lecture 97 High-pass RC filter
Lecture 98 High-pass RL filter
Lecture 99 Band-pass filter - Introduction
Lecture 100 RLC Band-pass filter
Section 15: More Advanced Filters
Lecture 101 Band-Pass Filter - Review
Lecture 102 Notch Filter and Twin-T Filter
Lecture 103 L, T and π topology filters
Lecture 104 Crossover Filter
Lecture 105 Butterworth , Bessel , Chebyshev , Elliptic filter
Section 16: Radio and Signal Modulation
Lecture 106 What is a communication channel ?
Lecture 107 What are Radio Waves ?
Lecture 108 Introduction to Radio Communications Principles
Lecture 109 How do repeaters work ?
Lecture 110 Radio Transmission
Lecture 111 Radio Receiver
Lecture 112 The purpose of modulation
Lecture 113 AM Modulation
Lecture 114 AM Transmitter and Receiver Circuit
Lecture 115 Types of Modulation - Part I
Lecture 116 Types of Modulation - Part II
Lecture 117 Types of Modulation - Part III
Section 17: Miscellaneous stuff
Lecture 118 Relays (Mechanical Relays and MOS FET Relays)
Lecture 119 RC Differentiator
Lecture 120 Wheatstone Bridge Explained
Lecture 121 Series RLC (Oscillating vs Dumped)
Section 18: Transistors Fundamentals
Lecture 122 Why were transistors invented?
Lecture 123 Looking inside a transistor
Lecture 124 Basic NPN transistor circuit
Lecture 125 Basic PNP transistor circuit
Lecture 126 What's the advantage of using a transistor as a switch?
Lecture 127 Operation Modes: Saturation
Lecture 128 Operation Modes: Cut off
Lecture 129 Operation Modes: Forward Active
Lecture 130 Current Gain/Amplification Factor
Lecture 131 How to counter the differences in β
Lecture 132 Variations on a theme - High Side Switching
Lecture 133 Pulse generator - part I
Lecture 134 Pulse generator - part II
Lecture 135 Pulse generator - part III (Adding Schmitt Trigger)
Lecture 136 Emitter Follower
Lecture 137 Impedance of sources and loads
Lecture 138 How to build an emitter follower ? - Part I
Lecture 139 How to build an emitter follower ? - Part II
Lecture 140 Emitter follower drives high-power LED
Lecture 141 Emitter Follower as Voltage Regulator
Section 19: Review + More Circuits with Transistors!
Lecture 142 Beginning: NPN vs PNP (Similarities + Differences)
Lecture 143 NPN Transistor How it works (Diode Model)
Lecture 144 PNP Transistor: How it works (Diode Model)
Lecture 145 Emitter Follower (INPUT AND OUTPUT IMPEDANCE) Part 1
Lecture 146 Emitter Follower (INPUT AND OUTPUT IMPEDANCE) Part 2
Lecture 147 Input and Output Coupling Capacitor
Lecture 148 Bypass Capacitor in Common-Emitter Amplifiers PART I
Lecture 149 Bypass Capacitor in Common-Emitter Amplifiers PART II
Section 20: Transistor Circuits
Lecture 150 Current Source - Introduction
Lecture 151 How to design a current source?
Lecture 152 How to design a common-emitter amplifier?
Lecture 153 Current Mirror
Lecture 154 Differential amplifier - Part 1
Lecture 155 Differential amplifier - Part 2
Section 21: Audio amplifier classes
Lecture 156 Decibel
Lecture 157 Power amplifier classes - Introduction
Lecture 158 Class A,B,AB,C,D - Theory
Lecture 159 Simulation - PART I (Class A and introduction to Class B)
Lecture 160 Simulation - PART 2 (Class B and AB)
Lecture 161 Simulation - PART 3 (Class D)
Section 22: Other circuits using BJT
Lecture 162 Astable Multivibrator
Lecture 163 Monostable Multivibrator
Lecture 164 Bistable Multivibrator
Lecture 165 Schmitt Trigger
Lecture 166 Colpitts Oscillator (Postive Feedback explained)
Section 23: Linear Power Supply Design
Lecture 167 Power Supplies Introduction (Block Diagram of a Linear Power Supply)
Lecture 168 How NOT to design a power supply
Lecture 169 Emitter Follower using Darlington Pair
Lecture 170 Transistor Based Power Supply (1.3V - 50V) Part I
Lecture 171 Transistor Based Power Supply (1.3V - 50V) Part II
Lecture 172 Split Power Supply Design (+12V & -12V)
Section 24: Operational Amplifier (Op-Amp) - Fundamentals
Lecture 173 Introduction (Op-Amp as Comparator)
Lecture 174 Op-Amp Buffer Circuit
Lecture 175 When a Circuit Needs Buffering
Lecture 176 How to increase the current of a buffer circuit?
Lecture 177 Non-Inverting Amplifier
Lecture 178 Inverting Amplifier
Lecture 179 Single Ended Inverting Amplifier
Lecture 180 Gain-BandWidth Product
Lecture 181 Cascading Op-amps For Improved Bandwidth
Section 25: Op-Amp Arithmetic Circuits
Lecture 182 Inverting Op-Amp Adder
Lecture 183 Non-Inverting Op-Amp Adder
Lecture 184 What is the use of an op-amp adder?
Lecture 185 Differential amplifier /with and without improvement/
Lecture 186 What are differential amplifier used for?
Lecture 187 Op-Amp Integrator PART I
Lecture 188 Op-Amp Integrator PART II
Lecture 189 Op-Amp Differentiator
Section 26: Op-Amp Based Precision Rectifiers
Lecture 190 Regular Rectifier vs Precision Rectifier
Lecture 191 Basic Half-Wave Precision Rectifier
Lecture 192 Gain Controller Precision Half-Wave Rectifier
Section 27: BONUS! - Common Op-Amp Based Circuits
Lecture 193 Peak Detector Circuit
Lecture 194 I-V Converter
Lecture 195 Building a Schmitt Trigger using Op-Amp
Section 28: Linear Voltage Regulator
Lecture 196 Linear Voltage Regulator ICs
Lecture 197 LM317 Based Variable Power Supply
Lecture 198 Different circuits that you can build with LM317
Lecture 199 Building a linear voltage regulator
Section 29: MOSFETs
Lecture 200 Types of Transistors
Lecture 201 MOSFET General Overview
Lecture 202 N-channel Mosfet (enhancement)
Section 30: N-channel MOSFET Characteristic Curve
Lecture 203 Cutoff Region
Lecture 204 Ohmic/Linear Region
Lecture 205 Saturation Region
Lecture 206 Breakdown Region
Lecture 207 DATASHEET REVIEW
Section 31: DC-to-DC Switching Converters
Lecture 208 Types of switching regulators
Lecture 209 Buck Converter (Working Principle)
Lecture 210 Buck Converter (Simulation + Datasheet)
Lecture 211 Boost Converter (Working Principle)
Lecture 212 Boost Converter (Simulation + Datasheet)
Lecture 213 Linear vs Switching Regulator Efficiency
People who think that electronics is difficult to understand.,People who want to learn electronics in a short amount of time and who don't have time to build all the circuits from scratch.,People who do not have an electronic's workbench at home but still want to learn electronics in an effective way.