subjectId 
Discipline Name 
Subject Name 
Coordinators 
Type 
Institute 
Content 
108101004 
Electrical Engineering 
Power System Dynamics and Control 
Dr. A.M. Kulkarni 
Video 
IIT Bombay 
Show Content
 Lecture 1  Introduction
 Lecture 2  Introduction
 Lecture 3  Analysis of Dynamical Systems
 Lecture 4  Analysis of Dynamical Systems (Contd.)
 Lecture 5  Analysis of LINEAR Time Invariant Dynamical Systems
 Lecture 6  Analysis of LINEAR Time Invariant Dynamical Systems (Contd.)
 Lecture 7  Stiff Systems, Multi Time Scale Modeling
 Lecture 8  Numerical Integration
 Lecture 9  Numerical Integration (Contd.)
 Lecture 10 Numerical Integration (Contd.)
 Lecture 11  Modeling of Synchronous Machines
 Lecture 12  Modeling of Synchronous Machines (Contd.)
 Lecture 13  Modeling of Synchronous Machines (Contd.)
 Lecture 14  Modeling of Synchronous Machines. dq0 transformation (Contd.)
 Lecture 15  Modeling of Synchronous Machines. Standard Parameters
 Lecture 16  Modeling of Synchronous Machines. Standard Parameters
 Lecture 17  Synchronous Generator Models using Standard Parameters
 Lecture 18  Synchronous Generator Models using Standard Parameters. PER UNIT REPRESENTATION
 Lecture 19  Open Circuit Response of a Synchronous Generator
 Lecture 20  Synchronous Machine Modeling. Short Circuit Analysis (Contd.)
 Lecture 21  Synchronous Machine Modeling. Short Circuit Analysis (Contd.). Synchronization of a Synchronous Machine
 Lecture 22  Synchronization of a Synchronous Machine (Contd.)
 Lecture 23  Simplified Synchronous Machine Models
 Lecture 24  Excitation Systems
 Lecture 25  Excitation System Modeling
 Lecture 26  Excitation System Modeling. Automatic Voltage Regulator
 Lecture 27  Excitation System Modeling. Automatic Voltage Regulator (Contd.)
 Lecture 28  Excitation System Modeling. Automatic Voltage Regulator (Simulation)
 Lecture 29  Excitation System Modeling. Automatic Voltage Regulator (Simulation) ? Contd.
 Lecture 30  Excitation System Modeling. Automatic Voltage Regulator. Linearized Analysis
 Lecture 31  Load Modeling
 Lecture 32  Induction Machines, Transmission Lines
 Lecture 33  Transmission Lines. Prime Mover Systems
 Lecture 34  Transmission Lines (Contd.). Prime Mover Systems
 Lecture 35  Prime Mover Systems. Stability in Integrated Power System
 Lecture 36  Stability in Integrated Power System: Two Machine Example
 Lecture 37  Two Machine System (Contd.)
 Lecture 38  Stability in Integrated Power System: Large Systems
 Lecture 39  Frequency/Angular Stability Programs. Stability Phenomena: Voltage Stability Example
 Lecture 40  Voltage Stability Example (Contd.). Fast Transients: Tools and Phenomena
 Lecture 41  Torsional Transients: Phenomena of SubSynchronous Resonance
 Lecture 42  SubSynchronous Resonance. Stability Improvement
 Lecture 43  Stability Improvement
 Lecture 44  Stability Improvement. Power System Stabilizers
 Lecture 45  Stability Improvement (Large Disturbance Stability)

108101037 
Electrical Engineering 
Control Engineering 
Prof. S.D. Agashe 
Video 
IIT Bombay 
Show Content
 The Control Problem
 Some More Examples
 Different Kinds of Control Systems
 History of Feedback
 Modern Control Problems
 DC Motor Speed Control
 System Modelling, Analogy
 Causes of System Error
 Calculation of Error
 Control System Sensitivity
 Automatic Control of DC Motor
 Proportional Control
 NonUnity Feedback
 SignalFlow Graph
 Mason's Gain Formula
 SignalFlow Graph for DC Motor Control
 SteadyState Calculations
 Differential Equation Model and Laplace Transformation Model
 DOperator Method
 SecondOrder System Response
 Frequency Response
 Laplace Transformation Theorems
 Final Value Theorem
 Transfer Function and PoleZero Diagram
 'Good' Poles and 'Bad' Poles
 Signal Flow Graph with Transfer Functions
 sDomain and tDomain
 SecondOrder System Response in sDomain
 Integral Feedback
 RootLocus Method
 RootLocus Rules
 Asymptotes of Root Locus
 Routh Array
 Singular Cases
 Closed Loop Poles
 Controller in the Forwarded Path
 Mapping of Control in the ComplexPlane
 Encirclement by a Curve
 Nyquist Criterion
 Application of the Nyquist Criterion
 Polar Plot and Bode Plots
 Logarithmic Scale for Frequency
 'Asymptotic' DB Gain
 Compensating Network
 Nichols' Chart
 Time Domain Methods of Analysis and Design
 StateVariable Equations

108101038 
Electrical Engineering 
Power Electronics 
Prof. B.G. Fernandes,Prof. Kishore Chatterjee 
Video 
IIT Bombay 
Show Content
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics
 Power Electronics

108101039 
Electrical Engineering 
Power System Protection 
Prof. S.A. Soman 
Web 
IIT Bombay 
Show Content

108101040 
Electrical Engineering 
Power Systems Operation and Control 
Dr. A.M. Kulkarni 
Web 
IIT Bombay 
Show Content

108102042 
Electrical Engineering 
Circuit Theory 
Prof. S.C. Dutta Roy 
Video 
IIT Delhi 
Show Content
 Review of Signals and Systems
 Review of Signals and Systems
 Network Equations; Initial and Final Conditions
 Problem Session1
 Step, Impulse and Complete Responses
 2nd Order Circuits:Magnetically Coupled Circuits
 Transformer Transform Domain Analysis
 Problem Session 2 : Step,Impulse
 Network Theorems and Network Functions
 Network Functions(Contd.)
 Amplitude and Phase of Network Functions
 Problem Session 3 : Network Theorems Transform
 Poles, Zeros and Network Response
 Single Tuned Circuits
 Single Tuned Circuits (Contd.)
 Double Tuned Circuits
 Double Tuned Circuits (Contd.)
 Problem Session 4 : Network Functions, Analysis
 Double Tuned Circuits (Contd.)
 Concept of Delay and Introduction
 Twoport Networks (Contd.)
 Problem Session 5
 Minor  1
 The Hybrid & Transmission Parameters of 2 ports
 Problem Session 6: Two  port networks
 Two  port Network parameters
 Twoport Interconnections
 Interconnection of Twoport Networks(Contd.)
 Problem Session 7 : Twoport Networks(Contd.)
 Scattering Matrix
 Scattering Parameters of a Twoport
 Problem Session 8 : Two port Parameters
 Solutions of Minor  2 Problems
 Insertion Loss
 Example of Insertion Loss and Elements
 Elements of Realizability Theory (Contd.)
 Positive Real Functions
 Testing of Positive Real Functions
 Problem Session 9
 More on PRF's and their Synthesis
 LC Driving Point Functions
 LC Driving Point Synthesis (Contd.)
 RC and RL Driving Point Synthesis
 Problem Session 10 : LC Driving Point Synthesis
 RC & RL Oneport Synthesis (Contd.)
 Elementary RLC Oneport Synthesis
 Properties and Synthesis of Transfer Parameters
 Resistance Terminated L C Ladder
 Resistance Terminated LC Ladder ( Contd.)
 Problem session 11: Twoport Synthesis
 Network Transmission Criteria

108102043 
Electrical Engineering 
Control Engineering 
Prof. M. Gopal 
Video 
IIT Delhi 
Show Content
 Introduction to control problem
 Basic Feedback Structure
 Introduction to Control Problem (Contd.)
 Dynamic Systems and Dynamic Response
 Dynamic Systems and Dynamic Response (Contd.)
 Dynamic Systems and Dynamic Response (Contd.)
 Dynamic Systems and Dynamic Response (Contd.)
 Dynamic Systems and Dynamic Response (Contd.)
 Dynamic Systems and Dynamic Response (Contd.)
 Models of Industrial Control Devices and Systems
 Models of Industrial Control Devices and Systems (Contd.)
 Models of Industrial Control Devices and Systems( Contd.)
 Models of Industrial Control Devices and Systems( Contd.)
 Models of Industrial Control Devices and Systems( Contd.)
 Models of Industrial Control Devices and Systems( Contd.)
 Models of Industrial Control Devices and Systems (Contd.)
 Models of Industrial Control Devices and Systems (Contd.)
 Models of Industrial Control Devices and Systems (Contd.)
 Basic Principles of Feedback Control
 Basic Principles of Feedback Control (Contd.)
 Basic Principles of Feedback Control (Contd.)
 Basic Principles of Feedback Control (Contd.)
 Concepts of stability and Routh Stability Criterion
 Concepts of stability and Routh Stability Criterion (Contd.)
 Concepts of stability and Routh Stability Criterion (Contd.)
 The Performance of Feedback Systems
 The Performance of Feedback Systems (Contd.)
 The Performance of Feedback Systems (Contd.)
 The Performance of Feedback Systems (Contd.)
 Compensator Design Using Root Locus Plots
 Compensator Design Using Root Locus Plots (Contd.)
 Compensator Design Using Root Locus Plots (Contd.)
 Compensator Design Using Root Locus Plots (Contd.)
 Compensator Design Using Root Locus Plots (Contd.)
 The Nyquist Stability Criterion and Stability Margins
 The Nyquist Stability Criterion and Stability Margins (Contd.)
 The Nyquist Stability Criterion and Stability Margins (Contd.)
 The Nyquist Stability Criterion and Stability Margins (Contd.)
 Feedback System Performance Based on the Frequency Response
 Feedback System Performance Based on the Frequency Response (Contd.)
 Compensator Design Using Frequency Response Plots

108102044 
Electrical Engineering 
Control Engineering 
Prof. M. Gopal 
Web 
IIT Delhi 
Show Content

108102046 
Electrical Engineering 
Industrial Drives 
Dr.K .R. Rajagopal 
Web 
IIT Delhi 
Show Content

108104051 
Electrical Engineering 
Power Systems Analysis 
Prof. Arindam Ghosh 
Web 
IITKANPUR 
Show Content

108105053 
Electrical Engineering 
Basic Electrical Technology 
Prof. T.K. Bhattacharya,Prof. N.K. De,Prof. G.D. Roy 
Web 
IIT Kharagpur 
Show Content

108105057 
Electrical Engineering 
Embedded Systems 
Prof. Amit Patra,Prof. Rajib Mall,Prof. A. Routray 
Web 
IIT Kharagpur 

108105061 
Electrical Engineering 
Illumination Engineering 
Prof. N.K. Kishore 
Web 
IIT Kharagpur 
Show Content

108105063 
Electrical Engineering 
Industrial Automation and Control 
Prof. S. Mukhopadhyay,Prof. S. Sen 
Web 
IIT Kharagpur 
Show Content

108105066 
Electrical Engineering 
Power Electronics 
Dr. D.Kastha,Prof. D.Prasad,Prof. N.K. De,Prof. Sabyasachi Sengupta 
Web 
IIT Kharagpur 
Show Content

108108078 
Electrical Engineering 
NonConventional Energy Systems 
Prof. L. Umanand 
Web 
IIScBANGLORE 
Show Content

108108079 
Electrical Engineering 
Numerical Analysis 
Prof. Vittal Rao 
Web 
IIScBANGLORE 
Show Content

108104048 
Electrical Engineering 
High Voltage Engineering 
Prof. Ravindra Arora 
Web 
IITKANPUR 
Show Content

108102045 
Electrical Engineering 
Embedded Systems 
Prof. Santanu Chaudhary 
Video 
IIT Delhi 
Show Content
 Embedded Systems: Introduction
 Embedded Hardware
 PIC: Instruction Set
 PIC Peripherals On Chip
 ARM Processor
 More ARM Instructions
 ARM: Interrupt Processing
 Digital Signal Processors
 More on DSP Processors
 System On Chip (SOC)
 Memory
 Memory Organization
 Virtual Memory and Memory Management Unit
 Bus Structure
 Bus Structure 2
 Bus Structure  3 Serial Interfaces
 Serial Interfaces
 Power Aware Architecture
 Software for Embedded Systems
 Fundamentals of Embedded Operating Systems
 Scheduling Policies
 Resource Management
 Embedded  OS
 Networked Embedded System
 Networked Embedded Systems  II
 Networked Embedded Systems  III
 Networked Embedded Systems  IV
 Designing Embedded Systems
 Designing Embedded Systems  II
 Designing Embedded Systems III
 Embedded System Design  IV
 Designing Embedded Systems  V
 Platform Based Design
 Compilers for Embedded Systems
 Developing Embedded Systems
 Building Dependable Embedded Systems
 Pervasive & Ubiquitous Computing

108102047 
Electrical Engineering 
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) 
Prof. D.P. Kothari 
Video 
IIT Delhi 
Show Content
 Electric Energy Systems A Perspective
 Structure of Power Systems
 Conventional Sources of Electric Energy
 Hydroelectric Power Generation
 Non Conventional Energy Sources
 Renewable Energy (Contd.)
 Energy Storage
 Deregulation
 Air Pollutants
 Transmission Line Parameters
 Capacitance of Transmission Lines
 Characteristics and Performance of Transmission Lines
 Voltage Regulation (VR)
 Power Flow through a Line
 Methods of Voltage Control
 Compensation of Transmission Lines
 Compensation of Transmission Lines (Contd.)
 Underground Cables
 Cables (Contd.)
 Insulators for Overhead Lines
 HVDC
 HVDC (Contd.)
 Distribution Systems
 Automatic Generation Control
 Automatic Generation Control (Contd.)
 Load Flow Studies
 Load Flow Problem
 Load Flow Analysis (Contd.), Gauss Siedel Method
 Newton Raphson (NR), Load Flow Method
 Fast Decoupled Load Flow
 Control of Voltage Profile
 Optimal System Operation (Economic Operation)
 Optimal Unit Commitment
 Optimal Generation Scheduling
 Optimal Load Flow (Contd.) and Hydro Thermal Scheduling

108102080 
Electrical Engineering 
Power System Dynamics 
Dr. M.L. Kothari 
Video 
IIT Delhi 
Show Content
 Introduction to Power System Stability Problem  Part1
 Introduction to Power System Stability Problem  Part2
 Introduction to Power System Stability Problem  Part3
 Solution of Switching Equation
 The Equal Area Criterion for Stability  Part1
 The Equal Area Criterion for Stability  Part2
 Transient Stability Analysis of a Multi Machine System
 Modeling of Synchronous Machine  Part1
 Modeling of Synchronous Machine  Part2
 Modeling of Synchronous Machine  Part3
 Modeling of Synchronous Machine  Part4
 Synchronous Machine Representation for Stability Studies  Part1
 Synchronous Machine Representation for Stability Studies  Part2
 Excitation Systems  Part1
 Excitation Systems  Part2
 Modeling of Excitation Systems  Part1
 Modeling of Excitation Systems  Part2
 Small Signal Stability of a Single Machine Infinite Bus System  Part1
 Small Signal Stability of a Single Machine Infinite Bus System  Part2
 Small Signal Stability of a Single Machine Infinite Bus System  Part3
 Small Signal Stability of a Single Machine Infinite Bus System  Part4
 Small Signal Stability of a Single Machine Infinite Bus System  Part5
 Dynamic Modeling of Steam turbines and Governors
 Dynamic modeling of Hydro Turbines and Governors
 Load modeling for Stability Studies
 Numerical Integration Methods for Solving a Set of Ordinary Nonlinear Differential Equation
 Simulation of Power System Dynamic Response
 Dynamic Equivalents for Large Scale Systems  Part1
 Dynamic Equivalents for Large Scale Systems  Part2
 Dynamic Equivalents for Large Scale Systems  Part3
 Direct Method of Transient Stability Analysis  Part1
 Direct Method of Transient Stability Analysis  Part2
 Sub Synchronous Oscillations  Part1
 Sub Synchronous Oscillations  Part2
 Voltage Stability  Part1
 Voltage Stability  Part2
 Voltage Stability  Part3
 Voltage Stability  Part4
 Methods of Improving Stability  Part1
 Methods of Improving Stability  Part2

108103007 
Electrical Engineering 
Advanced Control Systems 
Prof. S. Majhi 
Video 
IIT Guwahati 
Show Content
 Introduction
 Control structures and performance measures
 Time and frequency domain performance measures
 Design of controller
 Design of controller for SISO system
 Controller design for TITO processes
 Limitations of PID controllers
 PIPD controller for SISO system
 PIDP controller for Two Input Two Output system
 Effects of measurement noise and load
 Identification of dynamic models of plants
 Relay control system for identification
 Offline identification of process dynamics
 Online identification of plant dynamics
 State space based identification
 State space analysis of systems
 State space based identification of systems 1
 State space based identification of systems 2
 Identification of simple systems
 Identification of FOPDT model
 Identification of second order plus dead time model
 Identification of SOPDT model
 Steady state gain from asymmetrical relay test
 Identification of SOPDT model with pole multiplicity
 Existence of limit cycle for unstable system
 Identification procedures
 Identification of underdamped systems
 Offline identification of TITO systems
 Online identification of TITO systems
 Review of time domain based identification
 DF based analytical expressions for online identification
 Model parameter accuracy and sensitivity
 Improved identification using Fourier series and wavelet transform
 Reviews of DF based identification
 Advanced Smith predictor controller
 Design of controllers for the advanced Smith predictor
 Modelfree controller design
 Model Based PID controller Design I
 Model Based PIPD controller Design II
 Tuning of reconfigurable PID controllers

108103008 
Electrical Engineering 
Digital Control System 
Dr. Indrani Kar,Prof. S. Majhi 
Web 
IIT Guwahati 
Show Content
 Introduction
 Discrete time system representation
 Mathematical Modelling of Sampling Process
 Data reconstruction
 Revisiting Ztransform
 Mapping of splane to zplane
 Pulse transfer function
 Pulse transfer function of closed loop system
 Sampled signal flow graph
 Jury stability test
 Stability analysis using bilinear tranformation
 Transient and steady state responses
 Time response parameters of a prototype second order system
 Root locus method
 Controller design using root locus
 Root locus based controller design using MATLAB
 Nyquist stability criteria
 Bode plot
 Lead compensator design using Bode plot
 Lag compensator design using Bode plot
 Laglead compensator design in frequency domain
 Design of digital control systems with deadbeat response
 Practical issues with deadbeat response design
 Sampled data control systems with deadbeat response
 Introduction to state variable model
 Various canonical forms
 Characteristic equation, state transition matrix
 Solution to discrete state equation
 Controllability and observability
 Stability
 Lyapunov stability theorem
 Pole placement by state feedback
 Set Point Tracking Controller
 Full order observer
 Reduced order observer
 Output feedback design: Theory
 Output feedback design: Examples
 Basics of optimal control
 Performance indices
 Linear Quadratic Regulator (LQR) design
 Appendix1
 Appendix2
 Appendix3
 Appendix4
 Appendix5
 Appendix6
 Appendix7
 Appendix8
 Appendix9
 Appendix10
 Appendix11
 Appendix A
 Appendix B

108103009 
Electrical Engineering 
Introduction to Hybrid and Electric Vehicles 
Prof. S. Majhi,Dr. Praveen Kumar 
Web 
IIT Guwahati 
Show Content
 Historical Journey of Hybrids and Electric Vehicle
 Economic and Environmental Impact of Electric Hybrid Vehicle
 Motion and Dynamic equations for vehicles
 Vehicle Power Plant and Transmission Characteristics
 Basic Architecture of Hybrid Drive Trains and Analysis of Series Drive Train
 Power Flow in HEVs
 Torque Coupling and Analysis of Parallel Drive Train
 Basic Architecture of Electric Drive Trains
 DCDC Converters for EV and HEV Applications I
 Boost and BuckBoost Converters
 Multi Quadrant DCDC Converters I
 Multi Quadrant DCDC Converters II
 DCDC Converters for EV and HEV Applications II
 Questions Module 4
 DCAC Inverter for EV and HEV Applications
 Three Phase DCAC Inverters
 Voltage Control of DCAC Inverters Using PWM
 Induction Motors, their configurations and optimization for HEV/EVs
 Induction Motor drives, their control and applications in EV/HEVs
 Permanent magnet motors, their configurations and optimization
 Permanent Magnet Motor drives, their control and applications in EV/HEVs
 Switch reluctance motors, their configurations and optimization
 Permanent Magnet Motors
 Steady State Characteristics of Permanent Magnet Motors
 Dynamic Model of PM Machines
 Control of PM machines
 Flux Weakening Control of PM machines
 Design Principles of HEVs I
 Design Principles of HEVs II
 Drive cycle and its detailed analysis
 Sizing of Electric Machine for EVs and HEVs
 Batteries
 Mathematical Modeling for Lead acid battery
 Alternative and Novel Energy Sources
 Fuel Cell
 Energy management strategies and its general architecture
 Rule and optimization based energy management strategies (EMS)
 EMS Based on deterministic rules
 EMS Based on Fuzzy rule base
 EMS Based on Global Optimization
 EMS Based on Real Time Optimization
 Case Study of Design of a BEV I
 Case Study of Design of a BEV II
 Design of SeriesParallel HEV Drivetrain

108104013 
Electrical Engineering 
High Voltage DC Transmission 
Dr. S.N. Singh 
Video 
IIT Kanpur 
Show Content
 Lecture01
 Lecture02
 Lecture03
 Lecture04
 Lecture05
 Lecture06
 Lecture07
 Lecture08
 Lecture09
 Lecture10
 Lecture11
 Lecture12
 Lecture13
 Lecture14
 Lecture15
 Lecture16
 Lecture17
 Lecture18
 Lecture19
 Lecture20
 Lecture21
 Lecture22
 Lecture23
 Lecture24
 Lecture25
 Lecture26
 Lecture27
 Lecture28
 Lecture29
 Lecture30
 Lecture31
 Lecture32
 Lecture33
 Lecture34
 Lecture35
 Lecture36
 Lecture37

108104049 
Electrical Engineering 
Intelligent Systems and Control 
Prof. Laxmidhar Behera 
Video 
IIT Kanpur 
Show Content
 Introduction to Intelligent Systems and Control
 Linear Neural networks
 Multi layered Neural Networks
 Back Propagation Algorithm revisited
 Non Linear System Analysis Part I
 Non Linear System Analysis Part II
 Radial Basis Function Networks
 Adaptive Learning rate
 Weight update rules
 Recurrent networks Back propagation through time
 Recurrent networks Real time recurrent learning
 Self organizing Map  Multidimensional networks
 Fuzzy sets  A Primer
 Fuzzy Relations
 Fuzzy Rule base and Approximate Reasoning
 Introduction to Fuzzy Logic Control
 Neural Control A review
 Network inversion and Control
 Neural Model of a Robot manipulator
 Indirect Adaptive Control of a Robot manipulator
 Adaptive neural control for Affine Systems SISO
 Adaptive neural control for Affine systems MIMO
 Visual Motor Coordination with KSOM
 Visual Motor coordination  quantum clustering
 Direct Adaptive control of Manipulators  Intro
 NN based back stepping control
 Fuzzy Control  a Review
 Mamdani type flc and parameter optimization
 Fuzzy Control of a pH reactor
 Fuzzy Lyapunov controller  Computing with words
 Controller Design for a TS Fuzzy model
 Linear controllers using TS fuzzy model

108104052 
Electrical Engineering 
Power Systems Operation and Control 
Dr. S.N. Singh 
Video 
IIT Kanpur 
Show Content
 Module 1  Lecture 1
 Module 1  Lecture 2
 Module 1  Lecture 3
 Module 2  Lecture 1
 Module 2  Lecture 2
 Module 2  Lecture 3
 Module 2  Lecture 4
 Module 2  Lecture 5
 Module 2  Lecture 6
 Module 2  Lecture 7
 Module 2  Lecture 8
 Module 2  Lecture 9
 Module 2  Lecture 10
 Module 2  Lecture 11
 Module 2  Lecture 12
 Module 2  Lecture 13
 Module 2  Lecture 14
 Module 3  Lecture 1
 Module 3  Lecture 2
 Module 3  Lecture 3
 Module 3  Lecture 4
 Module 3  Lecture 5
 Module 3  Lecture 6
 Module 3  Lecture 7
 Module 3  Lecture 8
 Module 3  Lecture 9
 Module 3  Lecture 10
 Module 4  Lecture 1
 Module 4  Lecture 2
 Module 4  Lecture 3
 Module 4  Lecture 4
 Module 5  Lecture 1
 Module 5  Lecture 2
 Module 6  Lecture 1
 Module 6  Lecture 2

108105054 
Electrical Engineering 
Chaos, Fractals & Dynamic Systems 
Prof. S. Banerjee 
Video 
IIT Kharagpur 
Show Content
 Representations of Dynamical Systems
 Vector Fields of Nonlinear Systems
 Limit Cycles
 The Lorenz Equation  I
 The Lorenz Equation  II
 The Rossler Equation and Forced Pendulum
 The Chua's Circuit
 Discrete Time Dynamical Systems
 The Logistic Map and Period doubling
 Flip and Tangent Bifurcations
 Intermittency Transcritical and pitchfork
 Two Dimensional Maps
 Bifurcations in Two Dimensional Maps
 Introduction to Fractals
 Mandelbrot Sets and Julia Sets
 The Space Where Fractals Live
 Interactive Function Systems
 IFS Algorithms
 Fractal Image Compression
 Stable and Unstable Manifolds
 Boundary Crisis and Interior Crisis
 Statistics of Chaotic Attractors
 Matrix Times Circle : Ellipse
 Lyapunov Exponent
 Frequency Spectra of Orbits
 Dynamics on a Torus
 Dynamics on a Torus
 Analysis of Chaotic Time Series
 Analysis of Chaotic Time Series
 Lyapunou Function and Centre Manifold Theory
 NonSmooth Bifurcations
 NonSmooth Bifurcations
 Normal from for Piecewise Smooth 2D Maps
 Bifurcations in Piecewise Linear 2D Maps
 Bifurcations in Piecewise Linear 2D Maps
 Multiple Attractor Bifurcation and Dangerous
 Dynamics of Discontinuous Maps
 Introduction to Floquet Theory
 The Monodromy Matrix and the Saltation Matrix
 Control of Chaos

108105055 
Electrical Engineering 
Digital Signal Processing 
Prof. T.K. Basu 
Video 
IIT Kharagpur 
Show Content
 Discrete Time Signal and System
 Discrete Time Signal and System (Contd...)
 Discrete Time Signal and System (Contd...)
 Frequency Domain Representation of Discrete Signals
 ZTransform
 ZTransform (Contd...)
 Solution of Difference Equation
 Tutorial on Discrete Time Signals&Their Transforms
 Relation Between Discrete Time and Continuous Signals
 Discrete Fourier Transform (DFT)
 Discrete Fourier Transform (DFT) Contd...
 Discrete Fourier Transform (DFT) Contd...
 State Space Representation
 Filters Introduction
 FIR Filters
 FIR Filters (Contd.) Introduction to IIR Filters
 IIR Filters (Contd...)
 IIR Filters (Contd...)
 IIR Filters (Contd...)
 Tutorial & Introduction to Computer Aided Design of Filters
 Computer Aided Design of Filters
 FFT and Computer Aided Design of Filters
 Introduction to Lattice Filter
 Lattice Filter (Contd...)
 Effects of Quantization
 Effects of Quantization (Contd...)
 Effects of Quantization (Contd...)
 Effects of Quantization (Contd...)
 Random Signals
 Relationship Between Real and Imaginary Parts of DTFT
 Relationship Between Real and Imaginary Parts of DTFT
 Relationship Between Real and Imaginary Parts of DTFT
 Multi rate Signal Processing
 Multi rate Signal Processing (Contd...)
 Polyphase Decomposition

108105056 
Electrical Engineering 
Dynamics of Physical Systems 
Prof. S. Banerjee 
Video 
IIT Kharagpur 
Show Content
 Introduction to System Elements
 Newton's Method and Constraints
 Derivation of the Lagrangian Equation
 Using the lagrangian Equation to Obtain Differential Equations (PartI)
 Using the lagrangian Equation to Obtain Differential Equations (PartII)
 Using the lagrangian Equation to Obtain Differential Equations (PartIII)
 Using the lagrangian Equation to Obtain Differential Equations (PartIV)
 Obtaining First Order Equations
 Application of the Hamiltonian Method
 Obtaining Differential Equations Using Kirchoff's Laws
 The Graph Theory Approach for Electrical Circuits (PartI)
 The Graph Theory Approach for Electrical Circuits (PartII)
 The Bond Graph ApproachI
 The Bond Graph ApproachII
 The Bond Graph ApproachIII
 The Bond Graph ApproachIV
 The Bond Graph ApproachV
 The Bond Graph ApproachVI
 The Bond Graph ApproachVII
 Numerical Solution of Differential Equations
 Dynamics in the State Space
 Vector Field Around Equilibrium PointsI
 Vector Field Around Equilibrium PointsII
 Vector Field Around Equilibrium PointsIII
 Vector Field Around Equilibrium PointsIV
 High Dimensional Linear Systems
 Linear Systems with External InputI
 Linear Systems with External InputII
 Linear Systems with External InputIII
 Dynamics of Nonlinear SystemsI
 Dynamics of Nonlinear SystemsII
 Dynamics of Nonlinear SystemsIII
 DiscreteTime Dynamical SystemsI
 DiscreteTime Dynamical SystemsII

108105058 
Electrical Engineering 
Energy Resources & Technology 
Prof. S. Banerjee 
Video 
IIT Kharagpur 
Show Content
 Thermodynamics: Fundamentals Of Energy  Energy Resources & Technology
 Quality of Energy
 Complete Cycle Analysis of Fossil Fuels
 Energy in Transportation
 Other Fossil Fuels
 Energy Economics : InputOutput Analysis
 Energy Economics : InputOutput Analysis
 Thermal Power Plants
 Thermal Power Plants
 Hydroelectric Power
 Hydroelectric Power
 Nuclear Power Generation
 Nuclear Fusion Reactors
 Environmental Effects of Conventional Power
 Solar Thermal Energy Conversion
 Solar Concentrating Collectors
 Photovoltaic Power Generation
 Photovoltaic Power Generation Contd.
 Photovoltaic Power Generation Contd.
 Photovoltaic Power Generation Contd.
 Wind Energy I
 Wind Energy II
 Wind Energy  III
 Wind Energy  IV
 Wind Energy  V
 Wind Energy  VI
 Wind Electrical Conversion  I
 Wind Electrical Conversion  II
 Wind Electrical Conversion  III
 Tidal Energy
 Tidal Energy
 Tidal Energy
 Ocean Thermal Energy Conversion
 Solar Pond and Wave Power
 Geothermal Energy
 Solar Distillation and Biomass Energy
 Energy Storage
 Magneto hydrodynamic Power Generation
 Magneto hydrodynamic Power Generation
 Hydrogen Economy

108105059 
Electrical Engineering 
Estimation of Signals and Systems 
Prof. S. Mukhopadhyay 
Video 
IIT Kharagpur 
Show Content
 Introduction
 Probability Theory
 Random Variables
 Function of Random Variable Joint Density
 Mean and Variance
 Random Vectors Random Processes
 Random Processes and Linear Systems
 Some Numerical Problems
 Miscellaneous Topics on Random Process
 Linear Signal Models
 Linear Mean Sq.Error Estimation
 Auto Correlation and Power Spectrum Estimation
 ZTransform Revisited Eigen Vectors/Values
 The Concept of Innovation
 Last Squares Estimation Optimal IIR Filters
 Introduction to Adaptive Filters
 State Estimation
 Kalman FilterModel and Derivation
 Kalman FilterDerivation (Contd...)
 Estimator Properties
 The TimeInvariant Kalman Filter
 Kalman FilterCase Study
 System identification Introductory Concepts
 Linear RegressionRecursive Least Squares
 Variants of LSE
 Least Square Estimation
 Model Order Selection Residual Tests
 Practical Issues in Identification
 Estimation Problems in Instrumentation and Control
 Conclusion

108105060 
Electrical Engineering 
Illumination Engineering 
Prof. N.K. Kishore 
Video 
IIT Kharagpur 
Show Content
 Introduction to Illumination Engineering
 Instructional Objectives
 Eye and Vision I
 Eye and Vision II
 Laws of Illumination
 Photometry
 Incandescent Lamps
 Discharge Lamps I
 Discharge Lamps II
 Discharge Lamps III
 Illumination Systems I
 Illumination Systems II
 Glare
 Color
 Interior Lighting
 Sports Lighting
 Road Lighting
 Lighting Calculations
 Lighting Applications
 Conclusions on Illumination Engineering

108105062 
Electrical Engineering 
Industrial Automation and Control 
Prof. S. Mukhopadhyay,Prof. S. Sen 
Video 
IIT Kharagpur 
Show Content
 Introduction
 Architecture of Industrial Automation Systems
 Measurement Systems Characteristics
 Temperature Measurement
 Pressure, Force and Torque Sensors
 Motion Sensing
 Flow Measurement
 Signal Conditioning
 Signal Conditioning (Contd.)
 Data Acquisition Systems
 Introduction to Automatic Control
 PID Control
 PID Control Tuning
 Feedforward Control Ratio Control
 Time Delay Systems and Inverse Response Systems
 Special Control Structures
 Concluding Lesson on Process Control
 Introduction to Sequence Control, PLC , RLL
 Sequence Control. Scan Cycle,Simple RLL Programs
 Sequence Control. More RLL Elements, RLL Syntax
 A Structured Design Approach to Sequence
 PLC Hardware Environment
 Introduction To CNC Machines
 Contour generation and Motion Control
 Flow Control Valves
 Hydraulic Control Systems  I
 Hydraulic Control Systems  II
 Industrial Hydraulic Circuit
 Pneumatic Control Systems  I
 Pneumatic Systems  II
 Energy Savings with Variable Speed Drives
 DC Motor Drives
 DC and BLDC Servo Drives
 Induction Motor Drives
 Step Motor Drives BLDC Drives
 Embedded Systems
 The Fieldbus Network  I
 The Fieldbus Network  II
 Higher Level Automation Systems
 Course Review and Conclusion

108105064 
Electrical Engineering 
Industrial Instrumentation 
Prof. Alok Barua 
Video 
IIT Kharagpur 
Show Content
 Introduction to Industrial Instrumentation
 Dynamic Characteristics
 Dynamic Characteristics (Continued)
 Strain gauge
 Load cell
 Torque Measurement
 Thermistor
 Thermocouples
 Resistance Temperature Detector
 LVDT
 Capacitance Transducers
 Flowmeter  I
 Flow meter II
 Flowmeter III
 Flowmeter IV
 Flowmeter V
 Problems on Temperature Sensors
 Pressure Sensors
 Low Pressure Measurement
 pH and Viscosity Measurement
 Problem and Solutions On Industrial Instrumentation
 Signal Conditioning Circuits  I
 Signal Conditioning Circuits II
 Piezoelectric Sensors
 Ultrasonic Sensors
 Nucleonic Instrumentation
 Measurement Of Magnetic Field
 Optoelectronic Sensor  I
 Optoelectronic Sensor  II
 Synchro
 Dissolved Oxygen Sensors  I
 Dissolved Oxygen Sensors  II
 Flapper  Nozzle
 Smart Sensors
 Chromatography  I
 Chromatography  II
 Pollution Measurement
 Control Valve  I
 Control Valve  II
 Signal Conditioning Integrated Circuits

108105065 
Electrical Engineering 
Networks Signals and Systems 
Prof. T.K. Basu 
Video 
IIT Kharagpur 
Show Content
 Introduction to Network Elements and Sources
 Introduction to Linearity and Nonlinearity
 Distributed & Lumped Parameters 2port Networks
 Twoport Parameters Short Circuit,Open Circuit
 Tutorial
 LocusDiagram  Introduction to Signals
 Signals (contd.) Laplace Transforms
 Laplace Transform (contd.)
 Tutorial on Laplace Transform
 Frequency Response Bode Plot
 Bode Plot ( contd.)
 Bode Plot ( contd.)  Poles & Zeros
 Driving Point Immittance Functions  Realisability Conditions
 Two  Element Synthesis
 Two  Element Synthesis (contd.)
 Tutorial
 Tutorial
 Graph Theory
 Graph Theory (Contd. )
 Graph Theory (Contd.)
 Graph Theory (Contd.)
 Image Impedance, Iterative Impedance
 Image Impedance, Iterative Impedance
 Characteristic Impedance and Design of Filters
 Analysis of Resistive Networks Computer Aided
 RLC TwoTerminal Network
 Parts of Network Functions
 Parts of Network Functions (Contd.)
 Tutorial
 Tutorial (Contd.)
 Tutorial
 Synthesis of 2port Network
 Synthesis of 2  port Network (Contd.)
 Synthesis of 2  port Network (Contd.)
 Fourier Series
 Fourier Series (Contd.)

108105067 
Electrical Engineering 
Power System Analysis 
Prof. A.K. Sinha 
Video 
IIT Kharagpur 
Show Content
 Introduction to Power system analysis
 Introduction to Single Line Diagram
 Transmission Line Parameters
 Inductance Calculation (Three Phase)
 Transmission Line Capacitance
 Transmission Line Capacitance (Contd..)
 Transmission Line Modeling
 Transmission Line Modeling Long Line
 Transmission Line Steady State Operation
 Transmission Line Steady State Control Voltage
 Transmission System A Review
 Transformer Model
 Synchronous Machine Model
 Synchronous Machine Model
 Load Model
 Power Flow  I
 Power Flow  II
 Power Flow  III
 Power Flow  IV
 Power FlowV
 Power Flow VI
 Power Flow  VII
 Review of Power System Component Models
 Review of Power Flow Study
 Short Circuit Analysis
 Symmetrical Component Analysis
 Sequence Networks
 Unbalanced Fault Analysis
 Unbalanced Fault Analysis
 Fault Analysis for Large power Systems
 Bus Impedance Matrix
 Asymmetrical Fault Analysis Using Z  Bus
 Power System Stability  I
 Power System Stability  II
 Power System Stability  III
 Power System Stability  IV
 Power System Stability  V
 Power System Stability  VI
 Power System Stability  VII
 Power System Stability  VIII

108106024 
Electrical Engineering 
Nonlinear Control System 
Dr. Arun D. Mahindrakar 
Web 
IIT Madras 
Show Content
 Introduction
 Mathematical Preliminaries
 Wellposedness of ordinary differential quations
 Modeling and statespace formulation of nonlinear systems
 Secondorder systems
 Periodic Solutions
 Stability Analysis
 Nonlinear control design

108106026 
Electrical Engineering 
Power System Stability and Control 
Dr. B. Kalyan Kumar 
Web 
IIT Madras 
Show Content
 Introduction to Power System Stability
 Analysis of Power System Stability by Classical Methods
 Modelling of a Synchronous Machine
 Modelling of Exciter, Turbine and System Load
 Representation of Synchronous Machine for Stability Studies
 SmallSignal Stability Analysis
 Transient Stability Analysis
 Voltage Stability

108106068 
Electrical Engineering 
Analog ICs 
Prof. K. Radhakrishna Rao 
Video 
IIT Madras 
Show Content
 Basic Building Blocks In Analog ICs
 Current Mirrors
 Translinear Networks
 Differential Amplifier
 Differential Amplifier Characteristics
 Video Amplifier and RF/IF Amplifiers
 Cascade Amplifier
 IC Negative Feedback Wide Band Amplifiers
 IC Negative Feedback Amplifiers
 Voltage Sources And References
 IC Voltage Regulator
 Characteristics and Parameters Of Voltage
 Protection Circuitry For Voltage Regulator
 Switched Mode Regulator And Operational
 IC Operational Voltage Amplifier
 General Purpose Operational Amplifier747
 Transconductance Operational Amplifier
 Audio Power Amplifier and Norton's Amplifier
 Analog Multipliers
 Analog Multipliers
 Voltage Controlled Oscillator
 Voltage Controlled Oscillator
 Self Tuned Filter
 Phase Locked Loop24 Phase Locked Loop
 Phase Locked Loop
 Phase Locked Loop
 Phase Locked Loop
 Current Mode ICs

108106069 
Electrical Engineering 
Digital Integrated Circuits 
Prof. Amitava Dasgupta 
Video 
IIT Madras 
Show Content
 Semiconductors
 Modelling of PN Junction Diodes
 Modelling of BJTs
 Diode and BJT Model Parameter Extraction
 BJT Inverters DC and Switching Characteristics
 Schottky Transistor
 Specifications of Logic Circuits
 Qualitative discussion on TTL Circuits
 Standard TTL Circuits
 Schottky (74s..) and Low power Schottky (74ls
 Advanced TTL Circuits
 I^{2} L Technology
 Edge triggered DF/F
 I^{2} L  Condition for Proper Operation
 I^{2} L  Propagation delay Self aligned
 Schottky Transistor Logic
 Stacked I^{2} L
 ECL Basic Operation
 Quantitative analysis of ECL 10k Series gates
 ECL 100k series; Stacked ECL gates; DF/F
 Emitter Function Logic;Low Power ECL
 Polyemitter Bipolar Transistor In ECL;Propagation
 Heterojunction Bipolar Transistor Based ECL;ECL
 nMOS Logic Circuits
 nMOS Logic Circuits(contd); CMOS :Introduction
 CMOS Inverter
 CMOS NAND,NOR and Other Gates: Clocked CMOS
 Dynamic CMOS ;Transmission Gates;Realization Of MUX,decoder, DF/F
 BiCMOS Gates
 BiCMOS Driver;BiCMOS 32bit Adder
 Digital Integrated Circuits
 Digital Integrated Circuits
 CMOS SRAM
 BiCMOS SRAM
 DRAMCMOS and BiCMOS
 ROMEPROM,EEPROM and Flash EPROM
 GaAs MESFET Characteristics and Equivalent Circuits
 Direct Coupled FET Logic; Superbuffer FET Logic
 Buffered FET Logic; Schottky Diode FET Logic
 Transmission Line Effects

108106071 
Electrical Engineering 
Electrical Machines I 
Dr. Krishna Vasudevan,Prof. G. Sridhara Rao,Prof. P. Sasidhara Rao 
Web 
IIT Madras 
Show Content

108106072 
Electrical Engineering 
Electrical Machines II 
Dr. Krishna Vasudevan,Prof. G. Sridhara Rao,Prof. P. Sasidhara Rao 
Web 
IIT Madras 
Show Content

108106073 
Electrical Engineering 
Electromagnetic Fields 
Prof. Harishankar Ramachandran 
Video 
IIT Madras 
Show Content
 Introduction To Vector
 Introduction To Vector ( Continued)
 Coulomb's Law
 Electric Field
 Electro Static Potential
 The Gradient
 Gauss's Law
 Poisson's Equation
 Energy In The Field
 Sample Problems In Electrostatics
 Fields In Materials
 Fields In Material Bodies
 Displacement Vectors
 Capacitors
 Method Of Images
 Poisson's Equation 2 Dimensions
 Field Near Sharp Edges And Points
 Magnetic Field 1
 Magnetic Field 2
 Stokes Theorems
 The curl
 Field due to current loop
 Ampere's law
 Examples of Ampere's law
 Inductance
 Mutual Inductance
 Faraday's law
 Magnetic Energy
 Magnetic Energy (contd)
 Magnetic Energy (contd)
 Generalised Ampere's Law
 The Wave Equation
 The Wave Equation
 Poynting Theorem
 Skin Effect
 Skin Effect (Continued)
 Radiation And Circuits
 Phasor Form Of Poynting Theorem
 Reflection At Dielectric Boundaries
 Reflection At Dielectric Boundaries  Continued
 Transmission Lines
 Transmission Lines(contd) & Conclusion

108106074 
Electrical Engineering 
Industrial Instrumentation 
Prof. V. Jayashankar 
Web 
IIT Madras 
Show Content

108106075 
Electrical Engineering 
Networks and Systems 
Prof. V.G.K. Murti 
Video 
IIT Madras 
Show Content
 Introductory Concepts (1)
 Introductory Concepts (2)
 Introductory Concepts (3)
 Introductory Concepts (4)
 Introductory Concepts (5)
 Introductory Concepts (6)
 Fourier Series (1)
 Fourier Series (2)
 Fourier Series (3)
 Fourier Series (4)
 Fourier Series (5)
 Fourier Series (6)
 Fourier Transforms (1)
 Fourier Transforms (2)
 Fourier Transforms (3)
 Fourier Transforms (4)
 Fourier Transforms (5)
 Fourier Transforms (6)
 Fourier Transforms (7)
 Laplace Transforms (1)
 Laplace Transforms (2)
 Laplace Transforms (3)
 Laplace Transforms (4)
 Laplace Transforms (5)
 Laplace Transforms (6)
 Application of Laplace Transforms (1)
 Application of Laplace Transforms (2)
 Application of Laplace Transforms (3)
 Application of Laplace Transforms (4)
 Network Functions (1)
 Network Functions (2)
 Network Functions (3)
 Network Functions (4)
 Network Theorems(1)
 Network Theorems(2)
 Network Theorems (3)
 Network Theorems (4)
 Discrete  Time Systems (1)
 Discrete  Time Systems (2)
 Discrete  Time Systems (3)
 Discrete  Time Systems (4)
 Discrete  Time Systems (5)
 Discrete  Time Systems (6)
 Discrete  Time Systems (7)
 StateVariable Methods (1)
 StateVariable Methods (2)
 State Variable Methods (3)
 State Variable Methods (4)
 State Variable Methods (5)
 State Variable Methods (6)

108107028 
Electrical Engineering 
Computer Aided Power System Analysis 
Dr. B. Das,Dr. Vinay Pant 
Web 
IIT Roorkee 
Show Content
 Modern power system operation and control, different types of power system analysis
 Introduction, modeling of power system components and formation of YBUS matrix
 Formation of YBUS matrix in the presence of mutually coupled elements
 Basic power flow equations and GaussSeidel load flow technique
 Example of GaussSeidel load flow technique
 NewtonRaphson (polar) load flow technique
 Example of NewtonRaphson (polar) load flow technique
 NewtonRaphson (rectangular) load flow technique
 Example of NewtonRaphson ( rectangular ) load flow technique
 Fast decoupled load flow technique
 Example of Fast decoupled load flow technique
 A.C.D.C. load flow technique
 Example of A.C.D.C. load flow technique
 Introduction to Sparsity and Gaussian elimination technique
 Example of Gaussian elimination technique, Optimal ordering and LU factorization
 Algorithm & example of LU factorization, storage scheme for sparse matrices
 ZBUS matrix formulation without mutual impedance
 ZBUS matrix formulation without mutual impedance (continued)
 Example of ZBUS matrix formulation
 ZBUS matrix formulation considering mutual coupling between elements
 Example of ZBUS matrix formulation in the presence of mutual coupling
 Symmetrical Fault analysis & introduction to symmetrical components
 Sequence networks of power system components
 LG, LL,LLG fault analysis using sequence networks
 Unbalance fault analysis using of ZBUS matrix
 Example of fault calculations for threephase and LG faults
 Example of fault calculations for LL and LLG faults
 Open conductor fault analysis
 Example of Open conductor fault analysis
 Introduction, concept of GOSF, LOSF and D.C. load flow
 Calculation of GOSF and determination of Thevenin?s equivalent impedance
 Calculation of LOSF with an example
 Analysis of multiple contingencies
 Analysis of multiple contingencies (continued)
 Example of multiple contingency analysis and contingency ranking methods
 Classification of power system stability, equation of motion of a synchronous generator
 Basics of transient stability analysis with Partitioned Explicit technique
 Techniques for numerical integration with modified Euler?s method and RungeKutta 4th order method
 Example of transient stability analysis using modified Euler?s method
 Example of transient stability analysis using RungeKutta 4th order method
 Basics of Small signal analysis and linearization of network equations at generator buses
 linearization of network equations at load buses
 Formation of system state matrix and example of small signal stability analysis
 Introduction to voltage stability
 Relation between PL, QL and V
 Criteria for assessing voltage stability
 AppendixA System Data

108107029 
Electrical Engineering 
Microprocessor 
Dr. Pramod Agarwal 
Web 
IIT Roorkee 
Show Content
 Introduction of Microcomputer, Microcontrollers, Evolution of Microprocessors
 Microcomputer Organization, CPU, Memory, I/O Ports, Clock Generator
 Bussed Architecture, Address Bus, Data Bus, Control Bus, Computer Language, Applications
 Development of Memory, Dflipflop, mbit register
 Development of Memory Chips, Memory read/write operations
 Characteristics of memory, Access time, Classification ROM, PROM, EPROM, SRAM
 Intel 2716 EPROM, Intel 6116 RAM
 Dynamic RAM, 4116 DRAM
 States of 8085 ?P, Pin Configuration
 Pin Configuration contd
 Pin Configuration contd2
 Arithmetic and Logic Section, Flag register, Register section
 Program Counter, Stack Pointer
 Interrupt control section, Serial I/O, Machine Cycles
 OFMC, MRMC, MWRMC, IORMC, IOWRMC
 HALT state, HOLD state, State Transition Diagram
 Instruction Format, Addressing Modes
 Instruction Set, Classification, Data Transfer Group
 Data Transfer Group contd
 Data Transfer Group contd2
 Arithmetic Group
 Arithmetic Group contd
 Logical Group
 Logical Group contd., Branch Group
 Branch Group contd
 Branch Group contd., Stack Group
 Machine Control Group
 Unspecified Instruction Set
 Fundamentals of Programming
 Assembler, Assembler Directives, Macros
 Programming Examples
 Programming Examples contd
 Classification of I/O Techniques
 Interfacing I/O Devices, Isolated I/O
 Examples of Isolated I/O
 Memory Mapped I/O, Example
 Unconditional Data Transfer, Example of Dynamic Display
 Conditional Data Transfer, Example of ADC0809 Interface
 Interrupt I/O, Maskable and Non Maskable Interrupt
 Intel 8085 Interrupt Structure
 Handling of Interrupts by ?P, Example of ADC interface through Interrupt
 Pin Configuration, Operating Modes
 Mode 0, Mode 1 (Strobed Input Mode)
 Mode 1 (Strobed Output Mode)
 Mode 2, Special Modes, Status Register
 Pin Configuration, Timer or Counter, Internal Structure
 Interfacing with system, Mode 0
 Mode1, Mode 2, Mode 3, Mode 4, Mode 5
 Reading Timer, Read Back Command Feature
 Priority Interrupt Structure
 Intel 8259, Pin Configuration, Functional Block Diagram
 Interrupt Sequence, Initialization Control Words ICW1, ICW2
 Initialization Control Words ICW3, ICW4, Operation Control Words OCWs
 Fully Nested Mode, EOI modes
 Poll command, Reading Status Registers, Special Fully Nest Mode, Cascade Mode

108108031 
Electrical Engineering 
An Introduction to Electronics Systems Packaging 
Prof. G.V. Mahesh 
Video 
IISc Bangalore 
Show Content
 Introduction and Objectives of the course
 Definition of a system and history of semiconductors
 Products and levels of packaging
 Packaging aspects of handheld products; Case studies in applications
 Case Study (continued); Definition of PWB, summary and Questions for review
 Basics of Semiconductor and Process flowchart; Video on ?SandtoSilicon?
 Wafer fabrication, inspection and testing
 Wafer packaging; Packaging evolution; Chip connection choices
 Wire bonding, TAB and flipchip1
 Wire bonding, TAB and flipchip2; Tutorials
 Why packaging? & Single chip packages or modules (SCM)
 Commonly used packages and advanced packages; Materials in packages
 Advances packages (continued); Thermal mismatch in packages; Current trends in packaging
 Multichip modules (MCM)types; Systeminpackage (SIP); Packaging roadmaps; Hybrid circuits; Quiz on packages
 Electrical Issues ? I; Resistive Parasitic
 Electrical Issues ? II; Capacitive and Inductive Parasitic
 Electrical Issues ? III; Layout guidelines and the Reflection problem
 Electrical Issues ? IV; Interconnection
 Quick Tutorial on packages; Benefits from CAD; Introduction to DFM, DFR & DFT
 Components of a CAD package and its highlights
 Design Flow considerations; Beginning a circuit design with schematic work and component layout
 Demo and examples of layout and routing; Technology file generation from CAD; DFM check list and design rules; Design for Reliability
 Review of CAD output files for PCB fabrication; Photo plotting and mask generation
 Process flowchart; Vias; PWB substrates
 Substrates continued; Video highlights; Surface preparation
 Photoresist and application methods; UV exposure and developing; Printing technologies for PWBs
 PWB etching; Resist stripping; Screenprinting technology
 Throughhole manufacture process steps; Panel and pattern plating methods
 Video highlights on manufacturing; Solder mask for PWBs; Multilayer PWBs; Introduction to microvias
 Microvia technology and Sequential buildup technology process flow for highdensity interconnects
 Conventional Vs HDI technologies; Flexible circuits; Tutorial session
 SMD benefits; Design issues; Introduction to soldering
 Reflow and Wave Soldering methods to attach SMDs
 Solders; Wetting of solders; Flux and its properties; Defects in wave soldering
 Vapour phase soldering, BGA soldering and Desoldering/Repair; SMT failures
 SMT failure library and Tin Whiskers
 Tinlead and leadfree solders; Phase diagrams; Thermal profiles for reflow soldering; Leadfree alloys
 Leadfree solder considerations; Green electronics; RoHS compliance and ewaste recycling issues
 Thermal Design considerations in systems packaging
 Introduction to embedded passives; Need for embedded passives; Design Library; Embedded resistor processes
 Embedded capacitors; Processes for embedding capacitors; Case study examples; Summary of materials in packaging
 Chapterwise summary

108108036 
Electrical Engineering 
Switched Mode Power Conversion 
Prof. V. Ramanarayanan,Prof. L. Umanand 
Video 
IISc Bangalore 
Show Content
 Introduction to DCDC converter
 Diode
 Controlled Switches
 Prior Art
 Inductor
 Transformer
 Capacitor
 Issues related to switches
 Energy storage  Capacitor
 Energy storage ? Inductor
 Primitive Converter
 NonIsolated converter  I
 NonIsolated converter ? II
 Isolated Converters  I
 Isolated Converters ? II
 Conduction Mode
 Problem set  I
 Problem set ? II
 Modeling DCDC converters
 State space representation  I
 State Space representation  II
 Circuit Averaging  I
 Circuit Averaging  II
 State Space Model of Boost Converter
 DCDC converter controller
 Controller Structure
 PID Controller  I
 PID Controller  II
 PID Controller  III
 Implementation of PID controller
 Pulse Width Modulator
 Controller Design  I
 Controller Design ? II
 Controllers and Sensing Circuit
 Regulation of Multiple outputs  I
 Regulation of Multiple outputs  II
 Current Control
 Unity Power Factor Converter
 Magnetic Design
 DCDC Converter Design

108108076 
Electrical Engineering 
Basic Electrical Technology 
Prof. L. Umanand 
Video 
IISc Bangalore 
Show Content
 Basic Electrical Technology
 Passive Components
 Sources
 Kirchoff's Law
 Modelling of Circuit
 Modeling of Circuit Part 2
 Analysis Using MatLab
 Sinusoidal steady state
 Transfer Function and Pole Zero domain
 Transfer function & pole zero
 The Sinusoid
 Phasor Analysis Part 1
 Phasor Analysis Part 2
 Power Factor
 Power ports
 Transformer Basics Part 1
 Transformer Basic Part 2
 Transformer Basics Part 3
 The Practical Transformer Part 1
 Transformer Part 2
 The Practical Transformer Part 3
 DC Machines Part 1
 DC Machines Part 2
 DC Generators Part 1
 DC Generators Part 2
 DC Motors Part 1
 DC Motors Part 2
 DC Motor Part 3
 Three Phase System Part 1
 Three Phase System Part 2
 Three Phase System Part 3
 Three Phase System Part 4
 Three Phase Transformer Part 1
 Three Phase Transformer Part 2
 Induction Motor Part 1
 Induction Motor Part 2
 Induction Motor Part 3
 Induction Motor Part 4
 Synchronous Machine

108108077 
Electrical Engineering 
Industrial Drives  Power Electronics 
Prof. K. Gopakumar 
Video 
IISc Bangalore 
Show Content
 Electric Drive
 Controlled Rectifier Part 1
 Controlled Rectifier Part  II (Three phase)
 Controlled Rectifier Part  III (Three phase)
 Controlled Rectifier Part4(Three Phase)
 Controlled Rectifier Part5 (Three Phase)
 Power Electronics Improvements
 Four Quadrant Dc to Dc Converter
 Sine Triangle PWM Control of Converter
 Frontend AcDc Converter with harmonic control
 Ac to Dc Converter Close Loop Control Schematic
 AcDc Converter Close loop Control Block Diagram
 Design of the Converter Controller & AC to DC
 FrontEnd Ac to Dc ConverterDesign
 FrontEnd Ac to Dc Converter  Simulation study
 Dc Motor Speed Control  Introduction
 Dc Motor Speed Control  Block Diagram
 Dc Motor Speed Control Current Control & S C L
 DcMotor Speed Control Controller Design Part 1
 Dc Motor Speed Control Controller Design Part 2
 Dc Motor Speed Control Controller Design Part 3
 Basics of DC to AC Converter Part 1
 Basics of DC to AC Converter 2
 Inverter Sine Triangle PWM
 Inverter  Current Hysteresis Controlled PWM
 C H controlled & Basics of space vector PWM
 Space Vector PWM
 Space Vector PWM Part  3
 Space Vector PWM Signal Generation
 Speed Control of Induction Motor Part 1
 Speed Control of Induction Motor Part2
 High dynamic performance of I M Drive
 Dynamic Model of Induction Motor Part 1
 Dynamic Model of Induction Motor Part 2
 Vector Control of Induction Motor
 Effect of Switching Time lag in Inverter
 Power Switch Protection  Snubbers
