Power Convertor Topologies
The large number of automobiles in use around the world has caused and continues to cause serious problems of environment and human life. Air pollution, global warming, and the rapid depletion of the earth’s petroleum resources are now serious problems. Electric Vehicles (EVs), Hybrid Electric Vehicles (HEVs) and Fuel Cell Electric Vehicles (FCEVs) have been typically proposed to replace conventional vehicles in the near future. Energy storage or supply devices vary their output voltage with load or state of charge and the high voltage of the DC-link create major challenges for vehicle designers when integrating energy storage / supply devices with a traction drive. DC-DC converters can be used to interface the elements in the electric power train by boosting or chopping the voltage levels. Due to the automotive constraints, the power converter structure has to be reliable, lightweight, small volume, with high efficiency, low electromagnetic interference and low current/voltage ripple.
SESSION | CLASS TOPICS |
| 1 | Introduction to Matlab/simulink And ELECTRICAL TECHNOLOGY Definition | Market Trends | Classification | Application Types of Semiconductor Devices |
| 2 | Model based design of A synchronous Buck converter |
| 3 | Zero-Current Quasi-Resonant Switch converter |
| 4 | Power thyristor |
| 5 | Three phase rectifier |
| 6 | Dc to Ac converters |
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