Global Certificate in Advanced Power Electronics Principles

• Power Electronics Fundamentals: An introduction to power electronics principles, including power semiconductor devices, basic circuit topologies, and control strategies.
• Advanced Power Conversion Topologies: Explores advanced power conversion topologies, such as resonant converters, multilevel converters, and isolated converters, and their applications.
• Power Semiconductor Devices: Examines the characteristics, operation, and applications of advanced power semiconductor devices, such as MOSFETs, IGBTs, and wide-bandgap devices.
• Control Techniques in Power Electronics: Covers advanced control techniques for power electronics converters, including hysteretic and space vector modulation.
• Power Electronics in Renewable Energy Systems: Explores the role of power electronics in renewable energy systems, such as photovoltaic systems, wind energy conversion systems, and fuel cells.
• Power Electronics in Electric Vehicles: Investigates the applications of power electronics in electric vehicles, including motor drives, charging infrastructure, and energy storage systems.
• Power Electronics in Power Quality: Examines the role of power electronics in improving power quality, including harmonic reduction, power factor correction, and voltage regulation.
• Digital Control of Power Electronics: Covers the use of digital control techniques for power electronics converters, including digital signal processors (DSPs) and microcontrollers.
• Reliability and Failure Analysis in Power Electronics: Investigates the reliability and failure analysis of power electronics systems, including the impact of semiconductor device failure modes and packaging technology.