Postgraduate Certificate in Hybrid Vehicle Engineering
-- ViewingNowThe Postgraduate Certificate in Hybrid Vehicle Engineering is a specialized course designed to equip learners with the latest skills and knowledge in hybrid vehicle technology. This certificate program is crucial for professionals looking to stay updated with the rapidly evolving automotive industry, where hybrid and electric vehicles are becoming increasingly important.
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⢠Hybrid Vehicle Architectures: This unit will cover the different types of hybrid vehicle architectures, including series, parallel, and series-parallel systems. Students will learn about the advantages and disadvantages of each system, as well as their components and operations.
⢠Electrical Machines and Drives: This unit will cover the electrical machines and drives used in hybrid vehicles, including DC motors, induction motors, and permanent magnet motors. Students will learn about the principles of operation, control, and efficiency optimization of these machines and drives.
⢠Energy Storage Systems: This unit will cover the energy storage systems used in hybrid vehicles, including batteries, ultracapacitors, and fuel cells. Students will learn about the characteristics, performance, and safety issues of these energy storage systems, as well as their integration and management in hybrid vehicles.
⢠Power Electronics and Converters: This unit will cover the power electronics and converters used in hybrid vehicles, including DC-DC converters, AC-DC converters, and DC-AC inverters. Students will learn about the topologies, control, and efficiency optimization of these converters, as well as their compatibility with the electrical machines, energy storage systems, and loads in hybrid vehicles.
⢠Hybrid Vehicle Control and Communication: This unit will cover the control and communication systems used in hybrid vehicles, including sensor, actuator, and controller design, as well as communication protocols and standards. Students will learn about the real-time control and monitoring of the hybrid vehicle systems, as well as their optimization and fault diagnosis.
⢠Electric Vehicle Charging Infrastructure: This unit will cover the electric vehicle charging infrastructure, including the types, standards, and specifications of the charging stations, as well as the communication and interoperability issues. Students will learn about the integration of the charging infrastructure with the electric and hybrid vehicles, as well as the impact on the power grid and the environment.
⢠Advanced Drivetrain Design and Analysis: This unit will cover the advanced drivetrain design and analysis methods, including the multibody dynamics, finite element analysis, and optimization techniques. Students will learn about the simulation and validation of the drivetrain systems, as well
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