Multilevel converters. Until recently the vast majority of power electronic applications have been to low voltage systems. However, developments in high voltage semiconductor switches in the last decade have generated significant activity in high voltage power electronic applications.
Traditional two level converters have significant problems in high voltage applications - high output dv/dt damages insulation and motor bearings, and the semiconductor switches have high switching losses.
Mu ....Multilevel converters. Until recently the vast majority of power electronic applications have been to low voltage systems. However, developments in high voltage semiconductor switches in the last decade have generated significant activity in high voltage power electronic applications.
Traditional two level converters have significant problems in high voltage applications - high output dv/dt damages insulation and motor bearings, and the semiconductor switches have high switching losses.
Multilevel converters hold the promise of alleviating these problems. This project will research and develop multilevel converter technology for static VAR compensators and medium voltage drives, initially targeted at mining applications.Read moreRead less
Application Oriented System Level Optimum Design Method for Advanced Electrical Drive Systems. The new concept of application-oriented, integrated, system level design will relieve the constraints formerly applied to appliances by motors and give appliance designers full freedom to pursue the best appliance functions. The new platform will become a powerful tool for designing advanced drive systems of new materials, novel topologies, low cost and high performance, and shorten significantly the p ....Application Oriented System Level Optimum Design Method for Advanced Electrical Drive Systems. The new concept of application-oriented, integrated, system level design will relieve the constraints formerly applied to appliances by motors and give appliance designers full freedom to pursue the best appliance functions. The new platform will become a powerful tool for designing advanced drive systems of new materials, novel topologies, low cost and high performance, and shorten significantly the period of new product development. This will enhance tremendously the competitiveness of Australian industry. The energy savings achieved by using efficient systems will contribute significantly towards the reduction of greenhouse gas emission. High quality PhD and honours degree students will be trained.Read moreRead less
Design and Control of Sensorless, Brushless, Linear Permanent Magnet Motors for Fluid Pumping. Many machines require reciprocating motion and achieve it by mechanical conversion of rotary motion. In particular, pistons for liquid pumping and gas compression are usually driven by a crank on a rotary electric motor. Driving the piston directly by a linear motor eliminates the cost, weight, inefficiency and wear of the mechanical conversion. This project will design, construct and test high efficie ....Design and Control of Sensorless, Brushless, Linear Permanent Magnet Motors for Fluid Pumping. Many machines require reciprocating motion and achieve it by mechanical conversion of rotary motion. In particular, pistons for liquid pumping and gas compression are usually driven by a crank on a rotary electric motor. Driving the piston directly by a linear motor eliminates the cost, weight, inefficiency and wear of the mechanical conversion. This project will design, construct and test high efficiency, tubular, linear permanent magnet motors for fluid pumping. Further, an intelligent electronic controller will be developed to control the motor speed and reversals without sensors in the motor. Initial applications will be solar powered water pumping and purification.Read moreRead less
Development of Low Cost High Performance Motor Drives for Electrical Appliances using New Soft Magnetic Composite Materials. This project aims to break the major barrier to commercial production of efficient electrical appliances by developing low cost high performance motor drives using new soft magnetic composite materials. Initial applications will be swimming pool/spa pump drives. Optimum material composition, novel motor topologies, intelligent variable speed drive, and motor manufacturing ....Development of Low Cost High Performance Motor Drives for Electrical Appliances using New Soft Magnetic Composite Materials. This project aims to break the major barrier to commercial production of efficient electrical appliances by developing low cost high performance motor drives using new soft magnetic composite materials. Initial applications will be swimming pool/spa pump drives. Optimum material composition, novel motor topologies, intelligent variable speed drive, and motor manufacturing techniques using mould injection/compaction will be developed to reduce the production cost with improved performance in collaboration with Waterco. The new technology will contribute to reduction of greenhouse gas emission by reducing energy consumption of electrical appliances and once commercialised will greatly enhance the competitiveness of Australian industry in the world market.Read moreRead less
High Efficiency Low Cost Low Noise Variable Speed Compressor Drive for Refrigeration and Air Conditioning Systems. This project aims to break the major barriers to the commercial production of efficient refrigerators and air conditioners by developing a high efficiency low cost low noise variable speed compressor drive. High performance PM motors, power electronic fault tolerant converters/inverters, and intelligent algorithms for motor control and temperature control will be developed to meet ....High Efficiency Low Cost Low Noise Variable Speed Compressor Drive for Refrigeration and Air Conditioning Systems. This project aims to break the major barriers to the commercial production of efficient refrigerators and air conditioners by developing a high efficiency low cost low noise variable speed compressor drive. High performance PM motors, power electronic fault tolerant converters/inverters, and intelligent algorithms for motor control and temperature control will be developed to meet the specific requirements of compressor drives in collaboration with Kirby Refrigeration. The new technology will contribute to the reduction of CO2 greenhouse gas emission by reducing the energy consumption of refrigerators and air conditioners and once commercialised will greatly enhance the competitiveness of Australian industry in the world market.Read moreRead less
An intelligent integrated energy communication system. This multidisciplinary research project is an essential step towards transforming Australia's electricity infrastructure to become more intelligent. The real time monitoring of the power quality and energy usage will add value to the grid's operation, reducing planning and maintenance costs. Our intelligent grid technologies will contribute to the safeguarding of one of Australia's most critical infrastructures. Our technologies will contrib ....An intelligent integrated energy communication system. This multidisciplinary research project is an essential step towards transforming Australia's electricity infrastructure to become more intelligent. The real time monitoring of the power quality and energy usage will add value to the grid's operation, reducing planning and maintenance costs. Our intelligent grid technologies will contribute to the safeguarding of one of Australia's most critical infrastructures. Our technologies will contribute to the reduction of energy consumption and address environmental concerns. Training of postgraduate students in a multidisciplinary environment will create a capable new generation of researchers.Read moreRead less