Silicon-Carbide Switches for Post-Silicon Efficiency of Power Electronics. The aim of this project is to create a prototype of a silicon carbide (SiC)-based power-electronic switch for improved energy efficiency and reduced size of power-electronic circuits, well beyond the theoretical limits of silicon technology. Until very recently, the dominant controlled switch in electronics could only be implemented as a silicon transistor. A new method of electronic passivation of SiC surfaces has enable ....Silicon-Carbide Switches for Post-Silicon Efficiency of Power Electronics. The aim of this project is to create a prototype of a silicon carbide (SiC)-based power-electronic switch for improved energy efficiency and reduced size of power-electronic circuits, well beyond the theoretical limits of silicon technology. Until very recently, the dominant controlled switch in electronics could only be implemented as a silicon transistor. A new method of electronic passivation of SiC surfaces has enabled the recent commercialisation of SiC transistors. It is expected that the material advantages of SiC can be fully exploited by a new device structure and a new fabrication process.Read moreRead less
Integrated energy conversion and management systems in silicon-on-sapphire. The aim of this research is to develop specialised "power-supply-on-a-chip" integrated circuits (ICs) for efficient conversion and management of electrical energy. The project will utilise and develop the unique local expertise and IC fabrication capability in silicon-on-sapphire technology in partnership with Sapphicon Semiconductor Pty. Ltd. The ICs developed will be used to improve the performance of small-scale elect ....Integrated energy conversion and management systems in silicon-on-sapphire. The aim of this research is to develop specialised "power-supply-on-a-chip" integrated circuits (ICs) for efficient conversion and management of electrical energy. The project will utilise and develop the unique local expertise and IC fabrication capability in silicon-on-sapphire technology in partnership with Sapphicon Semiconductor Pty. Ltd. The ICs developed will be used to improve the performance of small-scale electric power and transport systems based on alternative energy sources, thereby assisting energy self-sufficiency in rural and remote communities and reducing Australia's dependence on fossil and other non-renewable fuels. Sales of the ICs will also generate export income for Australian industry.Read moreRead less