- Introduction
- The Story of Electricity
- What is Electricity ?
- What is Electric Current?
- What is Electronics ?
- Looking inside Electronic Devices
Online
₹ 449 3,499
Quick facts
particular | details | |
---|---|---|
Medium of instructions
English
|
Mode of learning
Self study
|
Mode of Delivery
Video and Text Based
|
Course and certificate fees
Fees information
₹ 449 ₹3,499
certificate availability
Yes
certificate providing authority
Udemy
The syllabus
Welcome to Electronics!
Understanding Electricity
- What you will learn
- Pondering the Wonder of Electricity
- Atoms Introduction
- Examining the Elements - Periodic Table
- Charge and Electromagnetism
- Conductors and Insulators
- Electric Current Flow
Simulator Tutorial
- How to get started !
- Setting up the simulator
FUNDAMENTALS
- So, what is voltage anyway?
- Direct Current(DC) vs Alternating Current(AC)
- How to measure voltage and current in a circuit?
- Exam nr.1
- Resistor Introduction
- Resistors in Series & Parallel
- Ohm's Law
- Voltage Divider
- Voltage Divider under Load
- Light Emitting Diode (LED)
- Current Limiting Resistor with LED
- Exam nr.2
Kirchhoff's Circuit Laws
- Why we need Kirchhoffs Circuit Law
- Kirchhoff's Current Law
- Kirchhoff's Voltage Law PART I
- Kirchhoff's Voltage Law PART II
- Exam nr.3
Electric Power P[W] Fundamentals
- Electric Power - Introduction
- Wattage
- Calculating Power
- Resistor Power Ratings
- Exam nr.4
Alternating Current (AC)
- Why we get AC signal from the wall-socket ?
- AC - Important Characteristics
- Root mean square voltage (Vrms)
- Exam nr.5
Capacitors
- Capacitor Introduction
- How a Capacitor Is Made
- Types of Capacitors
- How a Capacitor Works (in a DC circuit)
- Calculating Charge, Voltage, and Current
- Capacitor in an AC circuit
- Impedance and Reactance of a Capacitor
- Caps w/ Various Frequencies (Impedance Overview)
- Caps of Various Capacitances
- Coupling capacitors
- Decoupling capacitors
- Why to place multiple bypass capacitors in parallel?
- Smoothing capacitors
- Exam nr.6
RC Time Constant
- RC Time Constant
- RC Circuits: Charging,Discharging,Signal Filtering
- Application Examples
- Exam nr.7
Inductors
- Inductor - Introduction
- Types of Inductors
- Inductors in Series and Parallel
- Inductor Behavior in a DC circuit
- What is back E.M.F and how to control it?
- Inductor Behavior in an AC circuit
- Inductive Reactance
- Inductors w/ Various Frequencies
- Inductors of Various Inductances
- Impedances of Same Magnitude
- Series RLC Resonance
- Transformers - (Step-Down, Step-Up, Isolation)
- Long-Distance Power Transmission
- Exam nr.8
Diodes
- Diode Introduction
- Operating Regions of a Diode
- Looking into the datasheet
- Types of Diodes
- Current through a diode
- Diode as voltage reference
- Identifying the terminals of a real-life diode
- Half-Wave Rectifier Circuit /w Filter Capacitor
- Full-Wave Rectifier - Center Tapped and Diode Bridge
- Exam nr.9
- Voltage Multiplier, Voltage Doubler, Tripler
- Signal Rectifier, Diode Gates, Diode Clamp circuits
- Zener diodes and its applications
More Circuits with Diodes !
- Diode Limiter (Clapping Circuit)
- Clamper Circuit (DC Restoration)
- Spike Generator (Using RC Circuit)
- Voltage Doubler / Tripler
Input and Output Impedance of a Circuit
- Input Impedance of a Circuit
- Output Impedance of a Circuit
- Impedance Matching (Transmission Line)
- How to measure the input impedance
- How to measure the output impedance
- Exam nr.10
First Orders Filters
- What is a filter?
- RC Low Pass Filter
- RL Low Pass Filter
- What is the -3db point?
- How to calculate filter response ?
- Second order Low Pass Filter
- High-pass RC filter
- High-pass RL filter
- Band-pass filter - Introduction
- RLC Band-pass filter
More Advanced Filters
- Band-Pass Filter - Review
- Notch Filter and Twin-T Filter
- L, T and π topology filters
- Crossover Filter
- Butterworth , Bessel , Chebyshev , Elliptic filter
Radio and Signal Modulation
- What is a communication channel ?
- What are Radio Waves ?
- Introduction to Radio Communications Principles
- How do repeaters work ?
- Radio Transmission
- Radio Receiver
- The purpose of modulation
- AM Modulation
- AM Transmitter and Receiver Circuit
- Types of Modulation - Part I
- Types of Modulation - Part II
- Types of Modulation - Part III
Miscellaneous Stuff
- Relays (Mechanical Relays and MOS FET Relays)
- RC Differentiator
- Wheatstone Bridge Explained
- Series RLC (Oscillating vs Dumped)
Transistors
- Introduction
- Rules for NPN transistor
- Differences between NPN & PNP Transisistors - Forward Active Mode
- Transistor Switch - Saturation Mode
- Variations on a theme - High Side Switching
- Pulse generator - part I
- Pulse generator - part II
- Pulse generator - part III (Adding Schmitt Trigger)
- Emitter Follower
- Impedance of sources and loads
- How to build an emitter follower ? - Part I
- How to build an emitter follower ? - Part II
- Emitter follower drives high-power LED
- Emitter Follower as Voltage Regulator
Review + More Circuits with Transistors!
- Beginning: NPN vs PNP (Similarities + Differences)
- NPN Transistor How it works (Diode Model)
- PNP Transistor: How it works (Diode Model)
- Transistor Regions of Operation (Active, Saturated, Cutoff)
- Current Gain/Amplification Factor
- How to counter the differences in β
- Emitter Follower (INPUT AND OUTPUT IMPEDANCE) Part 1
- Emitter Follower (INPUT AND OUTPUT IMPEDANCE) Part 2
- Input and Output Coupling Capacitor
- Bypass Capacitor in Common-Emitter Amplifiers PART I
- Bypass Capacitor in Common-Emitter Amplifiers PART II
Transistor CIrcuits
- Current Source - Introduction
- How to design a current source?
- How to design a common-emitter amplifier?
- Current Mirror
- Differential amplifier - Part 1
- Differential amplifier - Part 2
Audio amplifier classes
- Decibel
- Power amplifier classes - Introduction
- Class A,B,AB,C,D - Theory
- Simulation - PART I (Class A and introduction to Class B)
- Simulation - PART 2 (Class B and AB)
- Simulation - PART 3 (Class D)
Other circuits using BJT
- Astable Multivibrator
- Monostable Multivibrator
- Bistable Multivibrator
- Schmitt Trigger
- Colpitts Oscillator (Postive Feedback explained)
Linear Power Supply Design
- Power Supplies Introduction (Block Diagram of a Linear Power Supply)
- How NOT to design a power supply
- Emitter Follower using Darlington Pair
- Transistor Based Power Supply (1.3V - 50V) Part I
- Transistor Based Power Supply (1.3V - 50V) Part II
- Split Power Supply Design (+12V & -12V)
Operational Amplifier (Op-Amp) - Fundamentals
- Introduction (Op-Amp as Comparator)
- Op-Amp Buffer Circuit
- When a Circuit Needs Buffering
- How to increase the current of a buffer circuit?
- Non-Inverting Amplifier
- Inverting Amplifier
- Single Ended Inverting Amplifier
- Gain-BandWidth Product
- Cascading Op-amps For Improved Bandwidth
Op-Amp Arithmetic Circuits
- Inverting Op-Amp Adder
- Non-Inverting Op-Amp Adder
- What is the use of an op-amp adder?
- Differential amplifier /with and without improvement/
- What are differential amplifier used for?
- Op-Amp Integrator PART I
- Op-Amp Integrator PART II
- Op-Amp Differentiator
Op-Amp Based Precision Rectifiers
- Regular Rectifier vs Precision Rectifier
- Basic Half-Wave Precision Rectifier
- Gain Controller Precision Half-Wave Rectifier
BONUS !- Common Op-Amp Based Circuits
- Peak Detector Circuit
- I-V Converter
- Building a Schmitt Trigger using Op-Amp
Linear Voltage Regulator
- Linear Voltage Regulator ICs
- LM317 Based Variable Power Supply
- Different circuits that you can build with LM317
- Building a linear voltage regulator
MOSFETs
- Types of Transistors
- MOSFET General Overview
- N-channel Mosfet (enhancement)
N-Channel MOSFET Characteristic Curve
- Cutoff Region
- Ohmic/Linear Region
- Saturation Region
- Breakdown Region
- DATASHEET REVIEW
DC-to-DC Switching Converters
- Types of switching regulators
- Buck Converter (Working Principle)
- Buck Converter (Simulation + Datasheet)
- Boost Converter (Working Principle)
- Boost Converter (Simulation + Datasheet)
- Linear vs Switching Regulator Efficiency