الفيديوهات موجودة ابتداء من المشاركة الثانية
Industrial Drives - Power Electronics
This Video Lecture course about the Industrial Drives - Power Electronics . this course are covering the Controlled Rectifier , Power
Electronics Improvements video lecture as well as having some more concept of video course for the Electircal student with easy of understand video lecture cours
1 - Electric Drive
2 - Controlled Rectifier Part 1
3 - Controlled Rectifier Part - II (Three phase)
4 - Controlled Rectifier Part - III (Three phase)
5 - Controlled Rectifier Part-4(Three Phase)
6 - Controlled Rectifier Part-5 (Three Phase)
7 - Power Electronics Improvements
8 - Four Quadrant Dc to Dc Converter
9 - Sine Triangle PWM Control of Converter
10 - Front-end Ac-Dc Converter with harmonic control
11 - Ac to Dc Converter Close Loop Control Schematic
12 - Ac-Dc Converter Close loop Control Block Diagram
13 - Design of the Converter Controller & AC to DC
14 - Front-End Ac to Dc Converter-Design
15 - Front-End Ac to Dc Converter - Simulation study
16 - Dc Motor Speed Control - Introduction
17 - Dc Motor Speed Control - Block Diagram
18 - Dc Motor Speed Control Current Control & S C L
19 - Dc-Motor Speed Control Controller Design Part 1
20 - Dc Motor Speed Control Controller Design Part 2
21 - Dc Motor Speed Control Controller Design Part 3
22 - Basics of DC to AC Converter Part 1
23 - Basics of DC to AC Converter 2
24 - Inverter Sine Triangle PWM
25 - Inverter - Current Hysteresis Controlled PWM
26 - C H controlled & Basics of space vector PWM
27 - Space Vector PWM
28 - Space Vector PWM Part - 3
29 - Space Vector PWM Signal Generation
30 - Speed Control of Induction Motor Part 1
31 - Speed Control of Induction Motor Part-2
32 - High dynamic performance of I M Drive
33 - Dynamic Model of Induction Motor Part 1
34 - Dynamic Model of Induction Motor Part 2
35 - Vector Control of Induction Motor
36 - Effect of Switching Time lag in Inverter
37 - Power Switch Protection - Snubbers
Industrial Instrumentation
This Video Lecture course about the Industrial Instrumentation. this course are covering the Flow Meter,
LVDT,Thermocouples video lecture as well as having some more concept of video course for the Electircal student with easy of understand video lecture cours
1 - Introduction to Industrial Instrumentation
2 - Dynamic Characteristics
3 - Dynamic Characteristics (Continued)
4 - Strain gauge
5 - Load cell
6 - Torque Measurement
7 - Thermistor
8 - Thermocouples
9 - Resistance Temperature Detector
10 - LVDT
11 - Capacitance Transducers
12 - Flowmeter - I
13 - Flow meter -II
14 - Flowmeter -III
15 - Flowmeter -IV
16 - Flowmeter -V
17 - Problems on Temperature Sensors
18 - Pressure Sensors
19 - Low Pressure Measurement
20 - pH and Viscosity Measurement
21 - Problem and Solutions On Industrial Instrumentation
22 - Signal Conditioning Circuits - I
23 - Signal Conditioning Circuits -II
24 - Piezoelectric Sensors
25 - Ultrasonic Sensors
26 - Nucleonic Instrumentation
27 - Measurement Of Magnetic Field
28 - Optoelectronic Sensor - I
29 - Optoelectronic Sensor - II
30 - Synchro
31 - Dissolved Oxygen Sensors - I
32 - Dissolved Oxygen Sensors - II
33 - Flapper - Nozzle
34 - Smart Sensors
35 - Chromatography - I
36 - Chromatography - II
37 - Pollution Measurement
38 - Control Valve - I
39 - Control Valve - II
40 - Signal Conditioning Integrated Circuits
Intelligent Systems and Control
This Video Lecture course about the Intelligent Systems and Control. this course are covering the Multi Layered Neural Networks,Non Linear
system analysis , some lecture course about the Neural video lecture as well as having some more concept of video course for the Electircal student with easy of understand video lecture cours
1 - Introduction to Intelligent Systems and Control
2 - Module 1 - Lecture 1 Linear Neural networks
3 - Module 1 - Lecture 2 Multi layered Neural Networks
4 - Module 1 - Lecture 3 Back Propagation Algorithm revisited
5 - Module 1 - Lecture 4 Non Linear System Analysis Part I
6 - Module 1 - Lecture 5 Non Linear System Analysis Part II
7 - Module 1 - Lecture 6 Radial Basis Function Networks
8 - Module 1 - Lecture 7 Adaptive Learning rate
9 - Module 1 - Lecture 8 Weight update rules
10 - Module 1 - Lecture 9 Recurrent networks Back propagation through time
11 - Module 1 - Lecture 10 Recurrent networks Real time recurrent learning
12 - Module 1 - Lecture 11 Self organizing Map - Multidimensional networks
13 - Module 2 - Lecture 1 Fuzzy sets - A Primer
14 - Module 2 - Lecture 2 Fuzzy Relations
15 - Module 2 - Lecture 3 Fuzzy Rule base and Approximate Reasoning
16 - Module 2 - Lecture 4 Introduction to Fuzzy Logic Control
17 - Module 3 - Lecture 1 Neural Control A review
18 - Module 3 - Lecture 2 Network inversion and Control
19 - Module 3 - Lecture 3 Neural Model of a Robot manipulator
20 - Module 3 - Lecture 4 Indirect Adaptive Control of a Robot manipulator
21 - Module 3 - Lecture 5 Adaptive neural control for Affine Systems SISO
22 - Module 3 - Lecture 6 Adaptive neural control for Affine systems MIMO
23 - Module 3 - Lecture 7 Visual Motor Coordination with KSOM
24 - Module 3 - Lecture 8 Visual Motor coordination - quantum clustering
25 - Module 3 - Lecture 9 Direct Adaptive control of Manipulators - Intro
26 - Module 3 - Lecture 10 NN based back stepping control
27 - Module 4 - Lecture 1 Fuzzy Control - a Review
28 - Module 4 - Lecture 2 Mamdani type flc and parameter optimization
29 - Module 4 - Lecture 3 Fuzzy Control of a pH reactor
30 - Module 4 - Lecture 4 Fuzzy Lyapunov controller - Computing with words
31 - Module 4 - Lecture 5 Controller Design for a T-S Fuzzy model
32 - Module 4 - Lecture 6 Linear controllers using T-S fuzzy model
Networks and Systems
This Video Lecture course about the Networks and Systems. this course are covering the Fourier series ,Network Function,
state variable Method video lecture as well as having some more concept of video course for the Electircal student with easy of understand video lecture cours
1 - Introductory Concepts (1)
2 - Introductory Concepts (2)
3 - Introductory Concepts (3)
4 - Introductory Concepts (4)
5 - Introductory Concepts (5)
6 - Introductory Concepts (6)
7 - Fourier Series (1)
8 - Fourier Series (2)
9 - Fourier Series (3)
10 - Fourier Series (4)
11 - Fourier Series (5)
12 - Fourier Series (6)
13 - Fourier Transforms (1)
14 - Fourier Transforms (2)
15 - Fourier Transforms (3)
16 - Fourier Transforms (4)
17 - Fourier Transforms (5)
18 - Fourier Transforms (6)
19 - Fourier Transforms (7)
20 - Laplace Transforms (1)
21 - Laplace Transforms (2)
22 - Laplace Transforms (3)
23 - Laplace Transforms (4)
24 - Laplace Transforms (5)
25 - Laplace Transforms (6)
26 - Application of Laplace Transforms (1)
27 - Application of Laplace Transforms (2)
28 - Application of Laplace Transforms (3)
29 - Application of Laplace Transforms (4)
30 - Network Functions (1)
31 - Network Functions (2)
32 - Network Functions (3)
33 - Network Functions (4)
34 - Network Theorems(1)
35 - Network Theorems(2)
36 - Network Theorems (3)
37 - Network Theorems (4)
38 - Discrete - Time Systems (1)
39 - Discrete - Time Systems (2)
40 - Discrete - Time Systems (3)
41 - Discrete - Time Systems (4)
42 - Discrete - Time Systems (5)
43 - Discrete - Time Systems (6)
44 - Discrete - Time Systems (7)
45 - State-Variable Methods (1)
46 - State-Variable Methods (2)
47 - State Variable Methods (3)
48 - State Variable Methods (4)
49 - State Variable Methods (5)
50 - State Variable Methods (6)
Networks Signals and Systems
This Video Lecture course about the Networks Signals and Systems. this course are covering the Linearity,Laplace Transform ,
Frequency Response video lecture as well as having some more concept of video course for the Electircal student with easy of understand video lecture cours
1 - Introduction to Network Elements and Sources
2 - Introduction to Linearity and Nonlinearity
3 - Distributed & Lumped Parameters 2-port Networks
4 - Two-port Parameters Short Circuit,Open Circuit
5 - Tutorial
6 - LocusDiagram - Introduction to Signals
7 - Signals (contd.) Laplace Transforms
8 - Laplace Transform (contd.)
9 - Tutorial on Laplace Transform
10 - Frequency Response Bode Plot
11 - Bode Plot ( contd.)
12 - Bode Plot ( contd.) - Poles & Zeros
13 - Driving Point Immittance Functions - Realisability Conditions
14 - Two - Element Synthesis
15 - Two - Element Synthesis (contd.)
16 - Tutorial
17 - Tutorial
18 - Graph Theory
19 - Graph Theory (Contd. )
20 - Graph Theory (Contd.)
21 - Graph Theory (Contd.)
22 - Image Impedance, Iterative Impedance
23 - Image Impedance, Iterative Impedance
24 - Characteristic Impedance and Design of Filters
25 - Analysis of Resistive Networks Computer Aided
26 - R-L-C Two-Terminal Network
27 - Parts of Network Functions
28 - Parts of Network Functions (Contd.)
29 - Tutorial 30 - Tutorial (Contd.)
31 - Tutorial
32 - Synthesis of 2-port Network
33 - Synthesis of 2 - port Network (Contd.)
34 - Synthesis of 2 - port Network (Contd.)
35 - Fourier Series
36 - Fourier Series (Contd.)
Power Electronics
This Video Lecture course about the Power Electronics. this course are covering the Power Electronics fully with detials video lecture
for the Electircal student with easy of understand video lecture cours
1 - Power Electronics
2 - Power Electronics
3 - Power Electronics
4 - Power Electronics
5 - Power Electronics
6 - Power Electronics
7 - Power Electronics
8 - Power Electronics
9 - Power Electronics
10 - Power Electronics
11 - Power Electronics
12 - Power Electronics
13 - Power Electronics
14 - Power Electronics
15 - Power Electronics
16 - Power Electronics
17 - Power Electronics
18 - Power Electronics
19 - Power Electronics
20 - Power Electronics
21 - Power Electronics
22 - Power Electronics
23 - Power Electronics
24 - Power Electronics
25 - Power Electronics
26 - Power Electronics
27 - Power Electronics
28 - Power Electronics
29 - Power Electronics
30 - Power Electronics
31 - Power Electronics
32 - Power Electronics
33 - Power Electronics
34 - Power Electronics
35 - Power Electronics
36 - Power Electronics
37 - Power Electronics
38 - Power Electronics
39 - Power Electronics
40 - Power Electronics
41 - Power Electronics
42 - Power Electronics
43 - Power Electronics
Power System Analysis
This Video Lecture course about the Power System Analysis. this course are covering the Transmission Line Capacitance,synchronous machine model video lecture as well as having some more concept of video course for the Electircal student with easy of understand video lecture cours
1 - Introduction to Power system analysis
2 - Introduction to Single Line Diagram
3 - Transmission Line Parameters
4 - Inductance Calculation (Three Phase)
5 - Transmission Line Capacitance
6 - Transmission Line Capacitance (Contd…)
7 - Transmission Line Modeling
8 - Transmission Line Modeling Long Line
9 - Transmission Line Steady State Operation
10 - Transmission Line Steady State Control Voltage
11 - Transmission System A Review
12 - Transformer Model
13 - Synchronous Machine Model
14 - Synchronous Machine Model
15 - Load Model
16 - Power Flow - I
17 - Power Flow - II
18 - Power Flow - III
19 - Power Flow - IV
20 - Power Flow-V
21 - Power Flow VI
22 - Power Flow - VII
23 - Review of Power System Component Models
24 - Review of Power Flow Study
25 - Short Circuit Analysis
26 - Symmetrical Component Analysis
27 - Sequence Networks
28 - Unbalanced Fault Analysis
29 - Unbalanced Fault Analysis
30 - Fault Analysis for Large power Systems
31 - Bus Impedance Matrix
32 - Asymmetrical Fault Analysis Using Z - Bus
33 - Power System Stability - I
34 - Power System Stability - II
35 - Power System Stability - III
36 - Power System Stability - IV
37 - Power System Stability - V
38 - Power System Stability - VI
39 - Power System Stability - VII
40 - Power System Stability - VIII
Power System Dynamics
This Video Lecture course about the Power System Dynamics. this course are covering the Modelling of synchronous machine,
solution of switching equation video lecture as well as having some more concept of video course for the Electircal student with easy of understand video lecture cours
1 - Introduction to Power System Stability Problem - Part-1
2 - Introduction to Power System Stability Problem - Part-2
3 - Introduction to Power System Stability Problem - Part-3
4 - Solution of Switching Equation
5 - The Equal Area Criterion for Stability - Part-1
6 - The Equal Area Criterion for Stability - Part-2
7 - Transient Stability Analysis of a Multi Machine System
8 - Modeling of Synchronous Machine - Part-1
9 - Modeling of Synchronous Machine - Part-2
10 - Modeling of Synchronous Machine - Part-3
11 - Modeling of Synchronous Machine - Part-4
12 - Synchronous Machine Representation for Stability Studies - Part-1
13 - Synchronous Machine Representation for Stability Studies - Part-2
14 - Excitation Systems - Part-1
15 - Excitation Systems - Part-2
16 - Modeling of Excitation Systems - Part-1
17 - Modeling of Excitation Systems - Part-2
18 - Small Signal Stability of a Single Machine Infinite Bus System - Part-1
19 - Small Signal Stability of a Single Machine Infinite Bus System - Part-2
20 - Small Signal Stability of a Single Machine Infinite Bus System - Part-3
21 - Small Signal Stability of a Single Machine Infinite Bus System - Part-4
22 - Small Signal Stability of a Single Machine Infinite Bus System - Part-5
23 - Dynamic Modeling of Steam turbines and Governors
24 - Dynamic modeling of Hydro Turbines and Governors
25 - Load modeling for Stability Studies
26 - Numerical Integration Methods for Solving a Set of Ordinary Nonlinear Differential Equation
27 - Simulation of Power System Dynamic Response
28 - Dynamic Equivalents for Large Scale Systems - Part-1
29 - Dynamic Equivalents for Large Scale Systems - Part-2
30 - Dynamic Equivalents for Large Scale Systems - Part-3
31 - Direct Method of Transient Stability Analysis - Part-1
32 - Direct Method of Transient Stability Analysis - Part-2
33 - Sub Synchronous Oscillations - Part-1
34 - Sub Synchronous Oscillations - Part-2
35 - Voltage Stability - Part-1
36 - Voltage Stability - Part-2
37 - Voltage Stability - Part-3
38 - Voltage Stability - Part-4
39 - Methods of Improving Stability - Part-1
40 - Methods of Improving Stability - Part-2
Power System Generation, Transmission and Distribution (Encapsulated from earlier
This Video Lecture course about the Power System Generation, Transmission and Distribution (Encapsulated from earlier). this course are covering the Renewable Energy,
Hydroelectric Power Generation,Energy storage video lecture as well as having some more concept of video course for the Electircal student with easy of understand video lecture cours
1 - Electric Energy Systems A Perspective
2 - Structure of Power Systems
3 - Conventional Sources of Electric Energy
4 - Hydroelectric Power Generation
5 - Non Conventional Energy Sources
6 - Renewable Energy (Contd.)
7 - Energy Storage
8 - Deregulation
9 - Air Pollutants
10 - Transmission Line Parameters
11 - Capacitance of Transmission Lines
12 -Characteristics and Performance of Transmission Lines
13 -Voltage Regulation (VR)
14 -Power Flow through a Line
15 -Methods of Voltage Control
16 -Compensation of Transmission Lines
17 - Compensation of Transmission Lines (Contd.)
18 - Underground Cables
19 - Cables (Contd.)
20 - Insulators for Overhead Lines
21 - HVDC
22 - HVDC (Contd.)
23 - Distribution Systems
24 - Automatic Generation Control
25 - Automatic Generation Control (Contd.)
26 - Load Flow Studies
27 - Load Flow Problem
28 -Load Flow Analysis (Contd.), Gauss Siedel Method
29 - Newton Raphson (NR), Load Flow Method
30 - Fast Decoupled Load Flow
31 - Control of Voltage Profile
32 - Optimal System Operation (Economic Operation)
33 - Optimal Unit Commitment
34 - Optimal Generation Scheduling
35 - Optimal Load Flow (Contd.) and Hydro Thermal Scheduling
Power Systems Operation and Control
This Video Lecture course about the Power Systems Operation and Control . this course are covering the Power system
video course for the Electircal student with easy of understand video lecture cours
Module 1
1 - Lecture 1
2 - Lecture 2
3 - Lecture 3
Module 2 -
4 - Lecture 1
5 - Lecture 2
6 - Lecture 3
7 - Lecture 4
8 - Lecture 5
9 - Lecture 6
10 - Lecture 7
11 - Lecture 8
12 - Lecture 9
13 - Lecture 10
14 - Lecture 11
15 - Lecture 12
16 - Lecture 13
17 - Lecture 14
Module 3 -
18 - Lecture 1
19 - Lecture 2
20 - Lecture 3
21 - Lecture 4
22 - Lecture 5
23 - Lecture 6
24 - Lecture 7
25 - Lecture 8
26 -Lecture 9
27 - Lecture 10
Module 4 -
28 - Lecture 1
29 - Lecture 2
30 - Lecture 3
31 - Lecture 4
Module 5 -
32 - Lecture 1
33 - Lecture 2
Module 6 -
34 - Lecture 1
35 - Lecture 2
Analog ICs
This video are covering the some concept about the Analog ICs , this video lecture having about the Translinear Networks,Amplifier ,
Characteristics and Parameters of Voltage like that , student can use this video course tutorial. the video lecture are understand about the analog concept well and good.
1 - Basic Building Blocks In Analog ICs
2 - Current Mirrors
3 - Translinear Networks
4 -Differential Amplifier
5 - Differential Amplifier Characteristics
6 -Video Amplifier and RF/IF Amplifiers
7 -Cascade Amplifier
8 - IC Negative Feedback Wide Band Amplifiers
9 -IC Negative Feedback Amplifiers
10 -Voltage Sources And References
11 -IC Voltage Regulator
12 - Characteristics and Parameters Of Voltage
13 - Protection Circuitry For Voltage Regulator
14 - Switched Mode Regulator And Operational
15 - IC Operational Voltage Amplifier
16 - General Purpose Operational Amplifier-747
17 - Transconductance Operational Amplifier
18 -Audio Power Amplifier and Norton’s Amplifier
19 - Analog Multipliers
20 - Analog Multipliers
21 - Voltage Controlled Oscillator
22 - Voltage Controlled Oscillator
23 - Self Tuned Filter
24 - Phase Locked Loop
25 - Phase Locked Loop
26 - Phase Locked Loop
27 - Phase Locked Loop
28 - Current Mode ICs
Basic Electrical Technology
This Video Lecture course about the Basic Electrical Technology. this course are covering the Modelling of the Circuit ,
Kirchoff’s Law and some more concept for the Electircal student with easy of understand video lecture course.
1&2 - Basic Electrical Technology
3 - Passive Components
4 - Sources
5 - Kirchoff’s Law
6 - Modelling of Circuit
7 - Modeling of Circuit Part 2
8 - Analysis Using MatLab
9 - Sinusoidal steady state
10 -Transfer Function and Pole Zero domain
11 - Transfer function & pole zero
12 - The Sinusoid
13 - Phasor Analysis Part 1
14 - Phasor Analysis Part 2
15 - Power Factor
16 - Power ports
17 - Transformer Basics Part 1
18 - Transformer Basic Part 2
19 - Transformer Basics Part 3
20 - The Practical Transformer Part 1
21 - Transformer Part 2
22 - The Practical Transformer Part 3
23 - DC Machines Part 1
24 - DC Machines Part 2
25 - DC Generators Part 1
26 -DC Generators Part 2
27 -DC Motors Part 1
28 - DC Motors Part 2
29 - DC Motor Part 3
30 -Three Phase System Part 1
31 - Three Phase System Part 2
32 - Three Phase System Part 3
33 - Three Phase System Part 4
34 - Three Phase Transformer Part 1
35 - Three Phase Transformer Part 2
36 -Induction Motor Part 1
37 - Induction Motor Part 2
38 - Induction Motor Part 3
39 - Induction Motor Part 4
40 - Synchronous Machine
Chaos, Fractals & Dynamic Systems
This Video Lecture course about the Chaos, Fractals & Dynamic Systems. this course are covering the Dynamical System,
Lorenz Equation and some more concept for the Electircal student with easy of understand video lecture course.
1 - Representations of Dynamical Systems
2 - Vector Fields of Nonlinear Systems
3 - Limit Cycles
4 - The Lorenz Equation - I
5 - The Lorenz Equation - II
6 - The Rossler Equation and Forced Pendulum
7 - The Chua’s Circuit
8 - Discrete Time Dynamical Systems
9 - The Logistic Map and Period doubling
10 - Flip and Tangent Bifurcations
11 - Intermittency Transcritical and pitchfork
12 - Two Dimensional Maps
13 -Bifurcations in Two Dimensional Maps
14 - Introduction to Fractals
15 - Mandelbrot Sets and Julia Sets
16 - The Space Where Fractals Live
17 - Interactive Function Systems
18 - IFS Algorithms
19 - Fractal Image Compression
20 - Stable and Unstable Manifolds
21 -Boundary Crisis and Interior Crisis
22 -Statistics of Chaotic Attractors
23 - Matrix Times Circle : Ellipse
24 - Lyapunov Exponent
25 - Frequency Spectra of Orbits
26 - Dynamics on a Torus
27 - Dynamics on a Torus
28 - Analysis of Chaotic Time Series
29 - Analysis of Chaotic Time Series
30 - Lyapunou Function and Centre Manifold Theory
31 -Non-Smooth Bifurcations
32 - Non-Smooth Bifurcations
33 - Normal from for Piecewise Smooth 2D Maps
34 - Bifurcations in Piecewise Linear 2D Maps
35 - Bifurcations in Piecewise Linear 2D Maps
36 - Multiple Attractor Bifurcation and Dangerous
37 - Dynamics of Discontinuous Maps
38 -Introduction to Floquet Theory
39 - The Monodromy Matrix and the Saltation Matrix
40 -Control of Chaos
Circuit Theory
This Video Lecture course about the Circuit Theory. this course are covering the signals systems,circuit
video lecture as well as having some more concept for the Electircal student with easy of understand video lecture course.
1 - Review of Signals and Systems
2 - Review of Signals and Systems
3 - Network Equations; Initial and Final Conditions
4 - Problem Session1
5 - Step, Impulse and Complete Responses
6 - 2nd Order Circuits:Magnetically Coupled Circuits
7 - Transformer Transform Domain Analysis
8 - Problem Session 2 : Step,Impulse
9 -Network Theorems and Network Functions
10 - Network Functions(Contd.)
11 - Amplitude and Phase of Network Functions
12 - Problem Session 3 : Network Theorems Transform
13 - Poles, Zeros and Network Response
14 - Single Tuned Circuits
15 - Single Tuned Circuits (Contd.)
16 -Double Tuned Circuits
17 - Double Tuned Circuits (Contd.)
18 - Problem Session 4 : Network Functions, Analysis
19 - Double Tuned Circuits (Contd.)
20 - Concept of Delay and Introduction
21 - Two-port Networks (Contd.)
22 - Problem Session 5
23 -Minor - 1
24 - The Hybrid & Transmission Parameters of 2 ports
25 - Problem Session 6: Two - port networks
26 - Two - port Network parameters
27 - Two-port Interconnections
28 - Interconnection of Two-port Networks(Contd.)
29 - Problem Session 7 : Two-port Networks(Contd.)
30 - Scattering Matrix
31 - Scattering Parameters of a Two-port
32 - Problem Session 8 : Two- port Parameters
33 - Solutions of Minor - 2 Problems
34 - Insertion Loss
35 - Example of Insertion Loss and Elements
36 -Elements of Realizability Theory (Contd.)
37 - Positive Real Functions
38 - Testing of Positive Real Functions
39 - Problem Session 9
40 - More on PRF’s and their Synthesis
41 - LC Driving Point Functions
42 -LC Driving Point Synthesis (Contd.)
43 - RC and RL Driving Point Synthesis
44 - Problem Session 10 : LC Driving Point Synthesis
45 - RC & RL One-port Synthesis (Contd.)
46 - Elementary RLC One-port Synthesis
47 -Properties and Synthesis of Transfer Parameters
48 - Resistance Terminated L C Ladder
49 - Resistance Terminated LC Ladder ( Contd.)
50 - Problem session 11: Two-port Synthesis
51 -Network Transmission Criteria
Control Engineering
This Video Lecture course about the Control Engineering. this course are covering the calculation of errors,
Mason’s Gain Formula and more video lecture as well as having some more concept for the Electircal student with easy of understand video lecture cours
1 - The Control Problem
2 - Some More Examples
3 - Different Kinds of Control Systems
4 - History of Feedback
5 - Modern Control Problems
6 -DC Motor Speed Control
7 - System Modelling, Analogy
8 - Causes of System Error
9 - Calculation of Error
10 - Control System Sensitivity
11 - Automatic Control of DC Motor
12 - Proportional Control
13 - Non-Unity Feedback
14 - Signal-Flow Graph
15 - Mason’s Gain Formula
16 - Signal-Flow Graph for DC Motor Control
17 - Steady-State Calculations
18 - Differential Equation Model and Laplace Transformation Model
19 - D-Operator Method
20 -Second-Order System Response
21 - Frequency Response
22 - Laplace Transformation Theorems
23 - Final Value Theorem
24 - Transfer Function and Pole-Zero Diagram
25 - ‘Good’ Poles and ‘Bad’ Poles
26 - Signal Flow Graph with Transfer Functions
27 -s-Domain and t-Domain
28 - Second-Order System Response in s-Domain
29 - Integral Feedback
30 - Root-Locus Method
31 - Root-Locus Rules
32 - Asymptotes of Root Locus
33 -Routh Array
34 - Singular Cases
35 - Closed Loop Poles
36 - Controller in the Forwarded Path
37 - Mapping of Control in the Complex-Plane
38 - Encirclement by a Curve
39 - Nyquist Criterion
40 - Application of the Nyquist Criterion
41 - Polar Plot and Bode Plots
42 -Logarithmic Scale for Frequency
43 - ‘Asymptotic’ DB Gain
44 - Compensating Network
45 - Nichols’ Chart
46 - Time Domain Methods of Analysis and Design
47 - State-Variable Equations
Control Engineering
This Video Lecture course about the Control Engineering. this course are covering the Dynamic Systems and Dynamic Response, Models of Industrial
Control Devices and System video lecture as well as having some more concept for the Electircal student with easy of understand video lecture cours
1 - Introduction to control problem
2 - Basic Feedback Structure
3 - Introduction to Control Problem (Contd.)
4 - Dynamic Systems and Dynamic Response
5 - Dynamic Systems and Dynamic Response (Contd.)
6 - Dynamic Systems and Dynamic Response (Contd.)
7 - Dynamic Systems and Dynamic Response (Contd.)
8 - Dynamic Systems and Dynamic Response (Contd.)
9 - Dynamic Systems and Dynamic Response (Contd.)
10 - Models of Industrial Control Devices and Systems
11 - Models of Industrial Control Devices and Systems (Contd.)
12 -Models of Industrial Control Devices and Systems( Contd.)
13 - Models of Industrial Control Devices and Systems( Contd.)
14 - Models of Industrial Control Devices and Systems( Contd.)
15 - Models of Industrial Control Devices and Systems( Contd.)
16 - Models of Industrial Control Devices and Systems (Contd.)
17 - Models of Industrial Control Devices and Systems (Contd.)
18 - Models of Industrial Control Devices and Systems (Contd.)
19 - Basic Principles of Feedback Control
20 - Basic Principles of Feedback Control (Contd.)
21 -Basic Principles of Feedback Control (Contd.)
22 - Basic Principles of Feedback Control (Contd.)
23 - Concepts of stability and Routh Stability Criterion
24 - Concepts of stability and Routh Stability Criterion (Contd.)
25 -Concepts of stability and Routh Stability Criterion (Contd.)
26 - The Performance of Feedback Systems
27 - The Performance of Feedback Systems (Contd.)
28 - The Performance of Feedback Systems (Contd.)
29 - The Performance of Feedback Systems (Contd.)
30 - Compensator Design Using Root Locus Plots
31 - Compensator Design Using Root Locus Plots (Contd.)
32 - Compensator Design Using Root Locus Plots (Contd.)
33 - Compensator Design Using Root Locus Plots (Contd.)
34 - Compensator Design Using Root Locus Plots (Contd.)
35 -The Nyquist Stability Criterion and Stability Margins
36 - The Nyquist Stability Criterion and Stability Margins (Contd.)
37 - The Nyquist Stability Criterion and Stability Margins (Contd.)
38 - The Nyquist Stability Criterion and Stability Margins (Contd.)
39 -Feedback System Performance Based on the Frequency Response
40 - Feedback System Performance Based on the Frequency Response (Contd.)
41 - Compensator Design Using Frequency Response Plots
Digital Integrated Circuits
This Video Lecture course about the Digital Integrated Circuits . this course are covering the Specifications of Logic Circuits,
Advanced TTL Circuits video lecture as well as having some more concept for the Electircal student with easy of understand video
lecture cours
1 - Semiconductors
2 - Modelling of PN Junction Diodes
3 - Modelling of BJTs
4 - Diode and BJT Model Parameter Extraction
5 - BJT Inverters DC and Switching Characteristics
6 - Schottky Transistor
7 - Specifications of Logic Circuits
8 - Qualitative discussion on TTL Circuits
9 - Standard TTL Circuits
10 - Schottky (74s…) and Low power Schottky (74ls
11 -Advanced TTL Circuits
12 - I2 L Technology
13 - Edge triggered D-F/F
14 - I2 L - Condition for Proper Operation
15 - I2 L - Propagation delay Self aligned
16 - Schottky Transistor Logic
17 - Stacked I2 L
18 -ECL Basic Operation
19 - Quantitative analysis of ECL 10k Series gates
20 - ECL 100k series; Stacked ECL gates; D-F/F
21 - Emitter Function Logic;Low Power ECL
22 - Polyemitter Bipolar Transistor In ECL;Propagation
23 - Heterojunction Bipolar Transistor Based ECL;ECL
24 - nMOS Logic Circuits
25 - nMOS Logic Circuits(contd); CMOS :Introduction
26 - CMOS Inverter
27 - CMOS NAND,NOR and Other Gates: Clocked CMOS
28 - Dynamic CMOS ;Transmission Gates;Realization Of MUX,decoder, D-F/F
29 - BiCMOS Gates
30 -BiCMOS Driver;BiCMOS 32-bit Adder
31 - Digital Integrated Circuits
32 - Digital Integrated Circuits
33 - CMOS SRAM
34 - BiCMOS SRAM
35 - DRAM-CMOS and BiCMOS
36 - ROM-EPROM,EEPROM and Flash EPROM
37 - GaAs MESFET Characteristics and Equivalent Circuits
38 -Direct Coupled FET Logic; Superbuffer FET Logic
39 - Buffered FET Logic; Schottky Diode FET Logic
40 - Transmission Line Effects
Digital Signal Processing
This Video Lecture course about the Digital Signal Processing. this course are covering the solution of difference equation, Discrete Fourier
Transforms video lecture as well as having some more concept for the Electircal student with easy of understand video lecture cours
1 - Discrete Time Signal and System
2 - Discrete Time Signal and System (Contd…)
3 - Discrete Time Signal and System (Contd…)
4 - Frequency Domain Representation of Discrete Signals
5 - Z-Transform
6 - Z-Transform (Contd…)
7 - Solution of Difference Equation
8 - Tutorial on Discrete Time Signals&Their Transforms
9 - Relation Between Discrete Time and Continuous Signals
10 - Discrete Fourier Transform (DFT)
11 - Discrete Fourier Transform (DFT) Contd…
12 - Discrete Fourier Transform (DFT) Contd…
13 - State Space Representation
14 - Filters Introduction
15 - FIR Filters
16 - FIR Filters (Contd.) Introduction to IIR Filters
17 - IIR Filters (Contd…)
18 - IIR Filters (Contd…)
19 - IIR Filters (Contd…)
20 - Tutorial & Introduction to Computer Aided Design of Filters
21 - Computer Aided Design of Filters
22 - FFT and Computer Aided Design of Filters
23 - Introduction to Lattice Filter
24 - Lattice Filter (Contd…)
25 - Effects of Quantization
26 - Effects of Quantization (Contd…)
27 - Effects of Quantization (Contd…)
28 - Effects of Quantization (Contd…)
29 - Random Signals
30 -Relationship Between Real and Imaginary Parts of DTFT
31 - Relationship Between Real and Imaginary Parts of DTFT
32 - Relationship Between Real and Imaginary Parts of DTFT
33 - Multi rate Signal Processing
34 - Multi rate Signal Processing (Contd…)
35 - Polyphase Decomposition
Dynamics of Physical Systems
This Video Lecture course about the Dynamics of Physical Systems . this course are covering the Newton’s Method and Constraints, Derivation of the
Lagrangian Equation video lecture as well as having some more concept for the Electircal student with easy of understand video
lecture cours
1 -Introduction to System Elements
2 - Newton’s Method and Constraints
3 - Derivation of the Lagrangian Equation
4 - Using the lagrangian Equation to Obtain Differential Equations (Part-I)
5 - Using the lagrangian Equation to Obtain Differential Equations (Part-II)
6 - Using the lagrangian Equation to Obtain Differential Equations (Part-III)
7 - Using the lagrangian Equation to Obtain Differential Equations (Part-IV)
8 - Obtaining First Order Equations
9 - Application of the Hamiltonian Method
10 -Obtaining Differential Equations Using Kirchoff’s Laws
11 - The Graph Theory Approach for Electrical Circuits (Part-I)
12 - The Graph Theory Approach for Electrical Circuits (Part-II)
13 - The Bond Graph Approach-I
14 - The Bond Graph Approach-II
15 - The Bond Graph Approach-III
16 - The Bond Graph Approach-IV
17 - The Bond Graph Approach-V
18 - The Bond Graph Approach-VI
19 - The Bond Graph Approach-VII
20 - Numerical Solution of Differential Equations
21 - Dynamics in the State Space
22 - Vector Field Around Equilibrium Points-I
23 - Vector Field Around Equilibrium Points-II
24 -Vector Field Around Equilibrium Points-III
25 - Vector Field Around Equilibrium Points-IV
26 - High Dimensional Linear Systems
27 -Linear Systems with External Input-I
28 - Linear Systems with External Input-II
29 - Linear Systems with External Input-III
30 - Dynamics of Nonlinear Systems-I
31 - Dynamics of Nonlinear Systems-II
32 - Dynamics of Nonlinear Systems-III
33 - Discrete-Time Dynamical Systems-I
34 - Discrete-Time Dynamical Systems-II