Lecture 1 - Introduction - EV Historical Background
Lecture 2 - Introduction - EV Benefits of Using EVs
Lecture 3 - Introduction - EV Overview of types of EVs and its Challenges
Lecture 4 - Introduction - EV Motor Drive Technologies
Lecture 5 - Introduction - EV Energy Source Technologies
Lecture 6 - Introduction - EV Battery Charging Technologies
Lecture 7 - Introduction - EV Vehicle to Grid
Lecture 8 - Introduction - EV Subsystems and Configurations
Lecture 9 - Introduction - HEV Subsystems and Configurations
Lecture 10 - Introduction - HEV Subsystems and Modes of Operation
Lecture 11 - Vehicle Dynamics Introduction and tractive effort
Lecture 12 - Vehicle Dynamics and dynamic equation
Lecture 13 - Vehicle Dynamics simulation dynamic equation constant Fte
Lecture 14 - Vehicle Dynamics dynamic equation variable Fte
Lecture 15 - Vehicle Dynamics simulation dynamic equation variable Fte
Lecture 16 - Vehicle Dynamics Modelling and simulation in Simulink
Lecture 17 - Summary Electric Vehicles Part 1 Course
Lecture 18 - Basics of DC Motor Drive
Lecture 19 - Realization of DC Chopper
Lecture 20 - Open Loop Operation of Chopper Fed DC Motor Drive
Lecture 21 - Review of Control Theory
Lecture 22 - Modeling and Current Controller Design for Separately Excited DC Motor Drive
Lecture 23 - Speed Controller Design and Performance Evaluation of DC Motor Drive
Lecture 24 - Fundamentals of Three Phase Induction Motor
Lecture 25 - Equivalent Circuit and Torque-Speed Characteristics of Induction Motor
Lecture 26 - Starting and Speed Control of Induction Motor
Lecture 27 - Realisation of DC to AC Power Converter
Lecture 28 - Impact of Non-Sinusoidal Voltage on Induction Motor
Lecture 29 - Selective Harmonic Elimination and Optimal Pulse Width Modulation Techniques
Lecture 30 - Switching Energy Losses and Sine-Triangle PWM
Lecture 31 - Analysis of Sine-Triangle PWM
Lecture 32 - Simulation Studies on Open Loop Induction Motor Drive
