Electrical Engineering Preparation
By NEATmet Learning Hub
Categories: Technical Development

About Course
This Refresher Course helps aspiring candidates to recapitulate and improve their fundamental knowledge on various subjects pertaining to Electrical Engineering.
It covers the relevant topics under the academic curriculum for Graduate and Diploma level Engineering, where video lectures from world class institutions e.g. IITs, IISc etc. have been facilitated for dissemination of knowledge.
What Will You Learn?
- Circuits and Systems
- Analog and Digital Electronics
- Electrical Machines and Transformers
- Measurements
- Power Systems
- Power Electronics
Course Content
Electrical Circuits
-
Basic Electrical Circuits
35:17 -
Sinusoids
37:10 -
Resistance, Inductance & Capacitance
31:06 -
Kirchhof’s Law
31:10 -
Basic Circuit elements & Waveforms
27:10 -
Mesh & Nodal Analysis
36:22 -
Mesh Analysis
30:23 -
Nodal Analysis
29:38 -
Topology
33:25 -
Star & Delta Transformation
36:48 -
Linearity Properties and Source Transformation
33:23 -
Network Theorem 1 | Source Transformation
32:39 -
Network Theorem | Duality
34:02 -
Thevenin’s Theorem
30:05 -
Thevenin’s Theorem with Dependent Source
34:29 -
Network Theorem 2 | Norton’s Theorem
31:18 -
Network Theorem 2 | Dependent Source
30:47 -
Maximum Power Transfer Theorem
27:31 -
Maximum Power Transfer Theorem 2
30:47 -
Reciprocity & Compensation Theorem
30:01 -
First Order & Second Order Circuits
31:09 -
First Order RL circuits
26:31 -
Singularity Function
31:52 -
RC Circuits
32:20 -
Second Order Response
31:06 -
Step Response of Second Order Circuits
25:58 -
Step Response Parallel RLC Circuits
29:09 -
Laplace Transformation & Application
29:37 -
Properties of Laplace Transform
33:01 -
Inverse Laplace Transform
33:26 -
Laplace Transform of Circuit Elements
30:30 -
Transfer Function
28:44 -
Convolution Theorem
29:02 -
Graphical Approach of Convolution Integral
31:35 -
Network Analysis & Network Synthesis
23:06 -
Impedance Parameters
30:38 -
Admittance Parameters
31:08 -
Hybrid Parameters
27:22 -
Transmission Parameters
29:37 -
Interconnection of Networks
31:35 -
Sinusoidal Steady state Analysis 1
27:15 -
Superposition Theorem & Source Theorem
28:59 -
Thevnin’s, Norton’s and Maximum Power Transfer Theorem
29:58 -
Magnetically Coupled Circuit
28:00 -
Energy in Coupled Circuit & Ideal Transformer
29:23 -
Ideal Transformer & Introduction to Three phase circuits
32:39 -
Balanced Three Phase Connections
32:19 -
Balanced Wye Delta & Delta-Delta connection
27:46
Electromagnetic Fields
-
Introduction
14:12 -
Rectangular Coordinate System
23:09 -
Dot Product or Scalar product
21:21 -
Vector Product or Cross product
23:58 -
Cylindrical Coordinate System
21:02 -
Numerical on Cylindrical Coordinate System
15:21 -
Spherical Coordinate System
25:52 -
Numerical on Spherical Coordinate System
25:21 -
Conversion between Coordinate Systems
18:16 -
Line Integration of a Vector
13:37 -
Surface Integral of a Vector
11:37 -
Volume Integration
02:49 -
Curvilinear Coordinate System
12:23 -
Del Operator
05:21 -
Gradient of a Scalar
08:26 -
Divergence of a Vector
21:09 -
Curl of a Vector
20:16 -
Curl of Gradient and divergence of Curl
05:37 -
Introduction to Electrostatics
08:45 -
Coulombs Law
09:05 -
Electric Field Intensity
21:08 -
Electric Field Intensity due to Surface Charge
19:32 -
Numerical on Electric Field Intensity
20:06 -
Electric Flux Density and Electric Flux
11:58 -
Gauss Law
10:49 -
Numerical on Gauss Law
10:18 -
Gaussian Surface, Calculation of Field Intensity using Gauss Law
17:30 -
Divergence Theorem
06:41 -
Work and Energy
11:25 -
Potential Difference
10:04 -
Equipotential Surface
09:53 -
Potential Gradient
10:26 -
Electric Dipole
15:24 -
Energy Stored in Electrostatic Field
20:29 -
Current & Current Density
11:20 -
Conductors
11:05 -
Good Conductors in Static Electric Field
10:29 -
Dielectric Materials
18:10 -
Dielectric Boundary Conditions
15:11 -
Capacitor
11:05 -
Combination of Capacitors
09:48 -
Types of Capacitors
11:54 -
Capacitance of 2 wire Transmission Line
07:03 -
Poisson’s & Laplace’s Equations
12:24 -
Biot Savart Law
17:07 -
Stoke’s Theorem
19:21 -
Ampere’s Circuital Law
13:19 -
Magnetic Field Intensity due to Long Co axial Transmission Line
09:01 -
Magnetic Flux Density
09:05 -
Scalar Magnetic Potential
11:11 -
Vector Magnetic Potential
13:24 -
Inductance of Solenoid
17:51 -
Inductance of a Coaxial Cable
20:39 -
Mutual Inductance
14:59 -
Faraday’s Laws of Electromagnetic Induction
22:59 -
Numerical on Faraday’s Laws
17:46 -
Derivation of Maxwell’s Equations
19:37 -
How Does the Current Flow in Capacitor
13:56 -
Boundary Conditions
16:00
Signals and Systems
-
Continuous & Discrete Signals
11:02 -
Complex to Polar Conversion
12:53 -
Energy & Power CT Signal
14:35 -
Energy & Power DT Signal
09:29 -
Basic Concepts DT Signals & Systems
05:42 -
Periodic Signals
21:31 -
Even and Odd Signals
13:21 -
Sketch Even & Odd Signals
12:49 -
Complex Exponential & Sinusoidal Signals
21:25 -
Complex Exponential & Sinusoidal Signals
15:54 -
System with Memory
14:23 -
Causality Property
15:14 -
Finite Sum
11:54 -
Convolution – Discrete Time LTI System
28:35 -
End Chapter Problem
15:21 -
Discrete Time Convolution
20:16
Analog and Digital Electronics
-
Complete Basic Electronics course
01:00:33 -
Difference Between Digital and Analog
12:12 -
A Brief History Of Electronics
31:19 -
Basic Electronics
32:37 -
Basic Electronics | Useful Circuits Techniques
29:53 -
Basic Electronics | Useful Circuit Techniques (Contd.)
26:09 -
Phasors
25:13 -
Phasors (Contd.)
26:53 -
Rc/Rl Circuits In Time Domain-1
27:28 -
Rc/Rl Circuits In Time Domain-2
23:12 -
Rc/Rl Circuits In Time Domain-3
28:41 -
Rc/Rl Circuits In Time Domain-4
26:10 -
Rc/Rl Circuits In Time Domain-5
30:38 -
Simulation of RC Circuit
24:34 -
Diode Circuits-1
27:46 -
Diode Circuits-2
25:35 -
Diode Circuits-3
25:57 -
Diode Circuits-4
28:19 -
Diode Circuits-5
28:51 -
Diode Circuits-6
28:50 -
Diode Rectifiers-1
27:07 -
Diode Rectifiers-2
23:11 -
Diode Rectifiers-3
27:01 -
Bipolar Junction Transistor-1
22:58 -
Bipolar Junction Transistor-2
34:50 -
Bipolar Junction Transistor-3
31:56 -
BJT Amplifier-1
20:34 -
BJT Amplifier-2
30:55 -
BJT Amplifier-3
28:58 -
BJT Amplifier-4
26:03 -
BJT Amplifier-5
22:42 -
BJT Amplifier-6
29:16 -
BJT Amplifier-7
25:38 -
Introduction To Op-Amps
23:42 -
Op-Amp Circuits-1
30:26 -
Op-Amp Circuits-2
26:39 -
Op-Amp Circuits-3
26:36 -
Differential Amplifier
27:11 -
Instrumentation Amplifier-1
25:45 -
Instrumentation Amplifier-2
25:53 -
Op-Amp Nonidealities-1
24:19 -
Op-Amp Nonidealities-2
27:55 -
Bode Plots-1
31:51 -
Bode Plots-2
29:56 -
Bode Plots-3
27:18 -
Op-amp filters
34:38 -
Simulation of Op-Amp Filters
26:15 -
Precision Rectifiers
23:48 -
Precision Rectifiers-2
25:52 -
Precision rectifiers-3
27:20 -
Simulation of Triangle -to-Sine Converter
25:44 -
Schmitt Triggers
27:31 -
Schmitt Triggers-2
30:51 -
Schmitt Triggers-3
28:56 -
Sinusoidal Oscillators 1
30:08 -
Sinusoidal Oscillators-2
24:56 -
Introduction to Digital Circuits
28:09 -
Boolean Algebra
28:07 -
Karnaugh Maps
33:20 -
Combinational Circuits-1
30:09 -
Combinational Circuits-2
28:18 -
Combinational Circuits-3
27:28 -
Introduction to Sequential Circuits
26:09 -
Latch and Flip-Flop
25:10 -
JK- Flip Flop
25:34 -
D Flip-Flop
26:00 -
Shift Registers
26:29 -
Counters-1
28:47 -
Counters-2
27:56 -
Simulation of a Synchronous Counter
25:43 -
555 Timer
32:11 -
Digital -to- Analog Conversion-1
25:58 -
Digital-to-Analog Conversion-2
25:45 -
Analog -to- Digital Conversion
33:35
Electrical Machines and Transformers
-
Introduction
02:59 -
Introduction to Electrical Machines -I
53:23 -
Single-phase &Three-phase AC Circuits, Magnetic circuits
44:23 -
Magnetic Circuit-II
42:36 -
Magnetic Circuit-III
48:31 -
Transformers -Introduction
49:40 -
Transformers -Amp-Turn Balance, Ideal and practical transformers
54:49 -
Transformer Equivalent circuit and Reducing leakage
01:02:03 -
Transformer equivalent circuit parameter determination
46:15 -
Transformers -Voltage regulation and efficiency
33:40 -
Auto-transformers
54:38 -
PU notation and Intoduction to Instrument transformers
48:50 -
Adjoint Linear Differential Operator (Contd..)
48:59 -
Three Phase Transformers-I
50:22 -
Three Phase Transformers-II
54:26 -
Electromechanical Energy Conversion-I
49:50 -
Electromechanical Energy Conversion-II
44:47 -
Electromechanical Energy Conversion-III
51:05 -
DC Machines-Introduction, Constructional Features
49:31 -
DC Machines- EMF and Torque Equations & Generator Operation
45:15 -
DC Machines- OCC & Load Charactristics Classification
49:51 -
DC Machines – Armature Reaction
34:28 -
DC Machine-Voltage Generation
43:40 -
DC Generator Characteristics and Introduction to DC Motors
49:39 -
DC Motors: Basics and Speed-Torque Relationship
52:43 -
DC Motor: Speed Control (Shunt and Separately Exicited Motor)
36:33 -
DC Motor: Speed Control (Series and Compound Motor)
52:58 -
DC Machine: Starting and Braking
54:25 -
DC Machine: Comutation
47:49 -
3 Phase Induction Motor
54:41 -
3 Phase Induction Motor | Equivalent Circuit
01:38:07 -
3 Phase Induction Motor | General Characteristics
51:28 -
Testing of 3 Phase Induction Motor
35:56 -
Starting of Induction Motor
45:50 -
3 Phase Synchronous Generator
52:56 -
3 Phase Synchronous Machine | Constructional Feature
51:29 -
Numerical Lesson
42:03 -
Synchronisation of Alternator
46:29 -
Synchronous Machine | Equivalent Circuit & Phasor Diagram
49:42 -
Synchronous Machine | OC & SC test
48:59 -
Synchronous machine | Power Angle, V & Inverted V curve
54:24 -
Single Phase Induction Motor
52:02
Electrical and Electronic Measurements
-
Electrical Measurement and Electronic Instruments
17:00 -
PMMC Instrument
34:48 -
Electrodynamic Instrument
40:33 -
Demonstration of PMMC and Electrodynamic Instrument
12:03 -
Features of PMMC and Electrodynamic Instrument
27:37 -
Moving Iron Instruments
27:17 -
Demonstration of Moving Iron Instrument
24:07 -
Electrostatic Instrument
19:12 -
Derivation of Deflecting Torque in Electrodynamic, Electrostatic & Moving Iron Instrument
01:12:29 -
Damping and Eddy Current Damping
46:47 -
Dynamics of the Moving Coil and Damping
28:16 -
Dynamics of the Moving Coil and Damping (Contd.)
33:49 -
Ballistic Galvanometer
24:21 -
Ammeter- I
22:22 -
Ammeter- II
33:35 -
Voltmeter
35:27 -
Ohmmeters- I
40:46 -
Ohmmeters- II
33:00 -
Rectifier based Voltmeters and Ammeter- I
35:50 -
Rectifier based Voltmeters and Ammeter- II
28:41 -
Resistance measurement with a Voltmeter and an Ammeter
33:18 -
Four-Terminal Resistance
34:08 -
Problems: Four Terminal Resistance
01:04:16 -
Error Calculation
49:52 -
Sensitivity, Accuracy, and Resolution of Wheatstone Bridge
50:22 -
Kelvin Double Bridge
52:11 -
High Resistance Measurement
53:14 -
Wattmeter Connection and Compensated Wattmeter
46:54 -
Single Phase Energy Meter
47:22 -
Eddy Current Braking, Creation of Magnetic Field Without Moving Objects
22:58 -
Single Phase Energy Meter (Contd….)
46:40 -
Connection of Energy Meter, Wattmeter, and Three Phase Supply
41:42 -
DC Potentiometer
47:34 -
AC Potentiometer
24:09 -
Polar potentiometer and phase shifter
41:48 -
Polar potentiometer
38:57 -
Co-ordinate potentiometer
54:48 -
Kelvin-Varley potential divider
01:13:56 -
Impedance measurement
44:11 -
AC bridges I
01:10:37 -
AC bridges- II
53:23 -
AC bridges- III
49:17 -
Current transformer and potential transformer
01:07:38 -
Review of transformer and magnetic circuit
01:57:41 -
Errors in Instrument transformer
01:14:33 -
Flux density measurement with Ballistic Galvanometer
20:23 -
Flux density measurement with Ballistic Galvanometer (Contd..)
29:25
Power Systems
-
Structure of Power Systems I
30:21 -
Structure of Power Systems II
29:23 -
Structure of Power Systems III
32:52 -
Resistance and Inductance
30:11 -
Resistance and Inductance (Contd.)
30:18 -
Resistance and Inductance (Contd.)
31:17 -
Resistance and Inductance (Contd.)
32:12 -
Resistance and Inductance (Contd.)
29:08 -
Resistance and Inductance (Contd.)
33:34 -
Resistance and Inductance (Contd.)
32:42 -
Resistance and Inductance (Contd.)
28:53 -
Capacitance of Transmisson Lines
32:26 -
Capacitance of Transmisson Lines (Contd.)
32:11 -
Capacitance of Transmisson Lines (Contd.)
31:04 -
Power System Componets and per-unit system
31:35 -
Power System Components and per-unit system(Contd.)
34:30 -
Power System Componets and per-unit system(Contd.)
31:14 -
Power System Components and per-unit system(Contd.)
34:38 -
Power System Components and per-unit system(Contd.)
32:50 -
Power System Componets and per-unit system(Contd.)
30:40 -
Characteristic and performance of transmission lines
31:18 -
Characteristic and performance of transmission lines(Contd.)
32:04 -
Characteristic and performance of transmission lines(Contd.)
30:16 -
Characteristic and performance of transmission lines(Contd.)
31:19 -
Characteristic and performance of transmission lines(Contd.)
34:15 -
Load flow studies
29:26 -
Load flow studies(Contd.)
32:57 -
Load flow studies(Contd.)
30:37 -
Load flow studies(Contd.)
30:04 -
Load flow studies(Contd.)
36:52 -
Load flow studies(Contd.)
31:33 -
Load flow studies(Contd.)
28:55 -
Load flow studies(Contd.)
30:16 -
Load flow studies(Contd.)
29:57 -
Load flow studies(Contd.)
30:07 -
Load flow studies (Contd.)
34:45 -
Optimal system operation
28:38 -
Optimal system operation (Contd.)
29:09 -
Optimal system operation (Contd.)
31:14 -
Optimal system operation (Contd.)
28:41 -
Optimal system operation (Contd.)
30:43 -
Optimal system operation (Contd.)
30:37 -
Optimal system operation (Contd.)
29:19 -
Optimal system operation (Contd.)
29:32 -
Three phase fault studies
27:49 -
Three phase fault studies (Contd.)
33:29 -
Three phase fault studies (Contd.)
30:31 -
Three phase fault studies (Contd.)
33:22 -
Symmetrical components
29:13 -
Symmetrical components (Contd.)
27:57 -
Symmetrical components (Contd.)
29:42 -
Symmetrical components (Contd.)
31:03 -
Symmetrical components (Contd.)
30:54 -
Symmetrical components (Contd.)
31:49 -
Power system stability
29:10 -
Power system stability (Contd.)
28:25 -
Power system stability (Contd.)
31:30 -
Power system stability (Contd.)
33:07 -
Power system stability (Contd.)
33:50 -
Power system stability (Contd.)
40:03
Power Electronics
-
Introduction To Power Electronics
15:39 -
Power Diodes
37:18 -
Power Transistor
21:59 -
Power MOSFET
25:56 -
IGBT
22:29 -
Static Induction Transistor
10:00 -
MOS Controlled Thyristor
22:40 -
Classification of Switches
24:21 -
Characteristics of Switches
23:04 -
Diode Circuits with DC Source 01 || R Load, RC Load, RL Load
19:01 -
Diode Circuits with DC Source 02 LC Circuit
21:39 -
Diode Circuits with DC Source 03 RL Circuit with Free Wheeling Diode RLC Circuit
24:05 -
Single Phase Half Wave Diode Rectifier With R and RE Load
22:42 -
Single Phase Half Wave Diode Rectifier With L and C Load
26:11 -
Single Phase Half Wave Diode Rectifier With RL Load
17:36 -
Single Phase Full Wave Diode Rectifiers Centre tap and Bridge Type
25:17 -
Performance Parameters of Rectifiers
15:00 -
Comparison of Single Phase Diode Rectifiers
17:48 -
Single Phase Half Wave Controlled Rectifier With R Load
13:15 -
Single Phase Half Wave Controlled Rectifier With RL Load and Free Wheeling Diode
24:02 -
Single Phase Half Wave Controlled Rectifier With RLE Load
18:59 -
Single Phase Full Wave Controlled Rectifiers
30:35 -
Line Commutated Inverter
13:16 -
Single Phase Semi Converter
15:07 -
Single Phase Symmetrical & Assymetrical Semi Converters
18:05 -
Fourier Analysis of Single Phase Controlled Rectifiers
24:52 -
Fourier Analysis of Single Phase Semi Converter
15:00 -
Numerical on Performance of Single Phase Converters
19:34 -
3 Phase Half Wave Diode Rectifier
18:14 -
3 Phase Half Wave Controlled Rectifiers (R Load, RL Load, RL Load with FWD)
25:59 -
3 Phase Mid point 6 Pulse Diode Rectifier (M6 Connection)
18:28 -
3-Phase Diode Bridge Rectifier (B6 Connection)
19:09 -
3 Phase Full Converter
17:57 -
Fourier Analysis of 3 Phase Full Converter
14:19 -
3 Phase SemiConverter
20:11 -
3 Phase 12 Pulse Rectifier
13:20 -
Effect of Source Inductance on 1 phase Full Converter
22:08 -
Effect of Source Inductance on 3 phase Converter
17:13 -
Dual Converter
25:27 -
Capacitor Filter
23:27 -
Inductor Filter
20:38 -
LC Filter
11:09 -
SCR Construction & Working
27:22 -
Two Transistor Model of SCR
19:26 -
Switching Characteristics of SCR
22:20 -
Gate Characteristics of SCR
18:22 -
Protection of SCR, Snubber Circuit
20:02 -
Heating and Cooling Circuit of SCR
10:30 -
Series Parallel operation of SCR
19:44 -
Introduction to Choppers
17:43 -
Step Down Chopper
19:51 -
Step Up Chopper
15:22 -
Step Up Down Chopper
13:48 -
Types of Choppers
23:20 -
Steady State Analysis of Type A Chopper
21:43 -
Theory of Tank Circuit
11:37 -
Voltage Commutated Chopper
21:02
Control Systems
-
Introduction
05:14 -
Linear Systems
35:51 -
Homogeneous linear time invariant ordinary differential equations
31:56 -
In-homogeneous linear time invariant ordinary differential equations
29:05 -
Fourier transforms | Part 1
27:40 -
Fourier transforms | Part 2
26:32 -
Laplace transforms | Part 1
33:37 -
Laplace transforms | Part 2
21:03 -
Feedback Control
29:30 -
Feedback Control | Part 2
28:49 -
Stability Theory
26:04 -
Quadratic Equation
23:36 -
Analytic Function & Cauchy Integral Formula
43:32 -
Nyquist Plot
42:39 -
Bode Plot
32:33 -
Closed Loop System
21:44 -
Plots
28:56 -
Plots (contd.)
21:12 -
Controller
24:54 -
Numerical example
15:55 -
Numerical Example 2
59:51 -
Root Locus
46:44 -
Root Locus 2
58:10 -
Generic Controllers
37:33 -
One degree of freedom control
01:02:58 -
Steady State analysis
45:13 -
Determination Of P4 and P5
36:09 -
2 Degree of freedom control system
51:19 -
Design
52:51 -
Transient response
32:41 -
Specifications
52:58 -
Nicole’s Plot
39:36 -
Stability Specification
42:50 -
Design of Controller
40:23 -
QFT Tool box
20:59 -
QFT Tool box 2
40:33 -
Fundamental properties of control system
33:02
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