Hot-swappable and High-efficient Grid-connected Power Electronics System For Photovoltaic Modules with Direct Power Transfer Technique. The project aims to increase the amount of available energy intake from photovoltaic panels, lengthen lifetime of power DC/AC inverter, reduce the amount of energy waste due to inefficient inverter by introducing new switching power converters with direct power transfer technique - bypassing part of the input power without repeatedly processing it, and using lon ....Hot-swappable and High-efficient Grid-connected Power Electronics System For Photovoltaic Modules with Direct Power Transfer Technique. The project aims to increase the amount of available energy intake from photovoltaic panels, lengthen lifetime of power DC/AC inverter, reduce the amount of energy waste due to inefficient inverter by introducing new switching power converters with direct power transfer technique - bypassing part of the input power without repeatedly processing it, and using long-life ceramic type capacitors. Development of this technology will mean reduced total cost, improved product lifetime and reduced global warming. It will lead to a reliable product that will help to put the Australian switching power converter industry into a leading position internationally in the design and manufacture of DC/AC inverters.Read moreRead less
Theoretical study and experimental verification of low cost, integrated and efficient AC/DC power supplies using time-multiplexing control. The project aims to reduce the amount of energy waste and cost due to inefficient AC/DC power supplies by introducing a novel power supply technique - combining conventional two-stage power circuits and using time-multiplexing control. Improvements in power supply efficiency and size will mean reduced total cost, improved product lifetime and reduced heating ....Theoretical study and experimental verification of low cost, integrated and efficient AC/DC power supplies using time-multiplexing control. The project aims to reduce the amount of energy waste and cost due to inefficient AC/DC power supplies by introducing a novel power supply technique - combining conventional two-stage power circuits and using time-multiplexing control. Improvements in power supply efficiency and size will mean reduced total cost, improved product lifetime and reduced heating up of the environment, leading to a reliable product that is particularly relevant to the Australian switching power supply industry. The development of this technology will help to put Australia into a leading position internationally in the design and manufacturing of AC/DC power supply.Read moreRead less
SIMULATION OF DYE SENSITISED SOLAR CELL SYSTEMS: A ROUTE TO INCREASING MODULE AND ARRAY PERFORMANCE. This project will address the need to minimise electrical losses in arrays of dye-sensitised solar cells by undertaking development of a comprehensive electrical circuit model of the cells. The model will enable optimal design of the materials, geometry and interconnection of cells, maximum power delivery from cell arrays, and provide understanding of the impact of shading on the performance of ....SIMULATION OF DYE SENSITISED SOLAR CELL SYSTEMS: A ROUTE TO INCREASING MODULE AND ARRAY PERFORMANCE. This project will address the need to minimise electrical losses in arrays of dye-sensitised solar cells by undertaking development of a comprehensive electrical circuit model of the cells. The model will enable optimal design of the materials, geometry and interconnection of cells, maximum power delivery from cell arrays, and provide understanding of the impact of shading on the performance of arrays of dye-sensitised solar cells. This research will accelerate the development of environmentally friendly electricity generation in Australia, and contribute to employment and exports of technology.
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