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Electrical Engineering
Introduction to Hybrid and Electric Vehicles (Web)
Syllabus
Co-ordinated by :
IIT Guwahati
Available from :
2013-02-08
Lec :
1
Modules / Lectures
History of Electrical Vehicle
Historical Journey of Hybrids and Electric Vehicle
Economic and Environmental Impact of Electric Hybrid Vehicle
Dynamics of Electric and Hybrid vehicles
Motion and Dynamic equations for vehicles
Architecture of Hybrid and Electric 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
DC-DC Converters
DC-DC Converters for EV and HEV Applications I
Boost and Buck-Boost Converters
Multi Quadrant DC-DC Converters I
Multi Quadrant DC-DC Converters II
DC-DC Converters for EV and HEV Applications II
Questions Module 4
DC-AC Converters
DC-AC Inverter for EV and HEV Applications
Three Phase DC-AC Inverters
Voltage Control of DC-AC Inverters Using PWM
A.C. Electrical Machines for Hybrid and Electric Vehicles
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 Machines for Hybrid and Electric Vehicles
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 of Hybrid and Electric Vehicles
Design Principles of HEVs I
Design Principles of HEVs II
Drive cycle and its detailed analysis
Sizing of Electric Machine for EVs and HEVs
Energy Storage
Batteries
Mathematical Modeling for Lead acid battery
Alternative and Novel Energy Sources
Fuel Cell
Control System for Electric and Hybrid Electric Vehicles
Energy management strategies and its general architecture
Rule and optimization based energy management strategies (EMS)
EMS Based on deterministic rules
Regenerative braking
EMS Based on Fuzzy rule base
EMS Based on Global Optimization
Design of Hybrid Electric vehicles
EMS Based on Real Time Optimization
Case Study of Design of a BEV I
Case Study of Design of a BEV II
Design of Series-Parallel HEV Drivetrain
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