Advanced Power Conversion Technologies

ELEC5207

The unit aims to cover advanced topics in power electronics and it applications. In particular, the power electronics interface design and implementation for microgrid, smart grids and modern power systems which have received tremendous attention in recent years. Many countries including Australia are developing different power electronics technologies such as integrating renewable energy sources into the grid, managing charging and discharging of high power energy storage system, controlling the reactive power of power electronics interfaces for grid stability, and adding communication capability to power electronics interfaces for smart meter implementation. The unit assumes prior fundamental knowledge of power electronics systems and applications, including the ability to analyse basic power converters for all four conversions (ac-ac, ac-dc, dc-ac, and ac-dc), and design and implement various applications, such as motor drive and battery charger, with the consideration of electrical characteristics of semiconductors and passive elements. This unit will cover advanced technologies on power electronics interfaces for smart grids and microgrid implementation, which include dynamic voltage restorer, active power filter, reactive power compensation, energy storage management, hybrid energy sources optimisation, multilevel inverter and control, D-STATCOM, etc. To analyse these advanced power conversion systems, some analytical techniques will be introduced. This includes resonant converters, soft-switching technique, ac equivalent circuit modeling, converter control and input/output filter design.

Unit of study details

Unit of study level: Postgraduate

Credit points: 6

Commencing semesters: 2

Further unit of study information

Unit of study handbook: ELEC5207

Costs and scholarships information: Costs and Scholarships

Final dates to withdraw from units of study: Census Dates

Available for study abroad and exchange: Yes

Our courses that offer this unit of study

• Master of Engineering (Chemical and Biomolecular Engineering)
• Master of Engineering (Civil Engineering)
• Master of Engineering (Telecommunications Engineering)
• Master of Engineering (Automation and Manufacturing Systems)
• Master of Engineering (Biomedical Engineering)
• Master of Engineering (Electrical Engineering)
• Master of Engineering (Fluids Engineering)
• Master of Engineering (Geomechanical Engineering)
• Master of Engineering (Mechanical Engineering)
• Master of Engineering (Power Engineering)
• Master of Engineering (Structural Engineering)
• Master of Engineering (Sustainability and Environmental Engineering)
• Master of Professional Engineering (Aerospace)
• Master of Professional Engineering (Biomedical)
• Master of Professional Engineering (Geomechanical)
• Master of Professional Engineering (Chemical and Biomolecular)
• Master of Professional Engineering (Power)
• Master of Professional Engineering (Civil)
• Master of Professional Engineering (Electrical)
• Master of Professional Engineering (Environmental Fluids)
• Master of Professional Engineering (Software)
• Master of Professional Engineering (Structural)
• Master of Professional Engineering (Telecommunications)
• Master of Professional Engineering (Mechanical)
• Graduate Diploma in Engineering
• Graduate Certificate in Engineering