Millimetre Wave Communication Systems for Consumer Applications. The key outcome of this cross-disciplinary project will be a prototype single-chip (RF section), short-range, 1Gigabit/second, wireless network operating at 60 GHz. This will employ new Silicon Germanium technology in a 'system on chip' methodology that will pave the way for low-cost consumer applications of such technology. A new design flow will be developed to support this project, which will enable first silicon pass correct d ....Millimetre Wave Communication Systems for Consumer Applications. The key outcome of this cross-disciplinary project will be a prototype single-chip (RF section), short-range, 1Gigabit/second, wireless network operating at 60 GHz. This will employ new Silicon Germanium technology in a 'system on chip' methodology that will pave the way for low-cost consumer applications of such technology. A new design flow will be developed to support this project, which will enable first silicon pass correct design of complete mm-wave millimetre wave radios on a single chip, a feat that has yet to be demonstrated. A new communication system will be developed to support the high data rates proposed. The significance will be application in very high speed high-bandwith wireless local networks.Read moreRead less
Dynamic signal processing with currents. Today's digital computers and communications devices, such as mobile phones, contain continuous time filters as necessary and important components. We will investigate an integrated circuit design methodology for the creation of fully programmable versions of such filters. Currently these filters are redesigned for each application and are often external to the IC. This increases the size and cost of the design. Another outcome of the methodology is a cur ....Dynamic signal processing with currents. Today's digital computers and communications devices, such as mobile phones, contain continuous time filters as necessary and important components. We will investigate an integrated circuit design methodology for the creation of fully programmable versions of such filters. Currently these filters are redesigned for each application and are often external to the IC. This increases the size and cost of the design. Another outcome of the methodology is a current domain signal processor. This will be capable of modelling complex systems such as biological neurons and stock option pricing. We will build these systems and interface them with digital computers.Read moreRead less
Special Research Initiatives - Grant ID: SR0354735
Funder
Australian Research Council
Funding Amount
$10,000.00
Summary
Australian Network on Microelectronics, Optoelectronics and Microelectromechanical Systems. The Network will encompass semiconductor microelectronics, optoelectronics, sensors and microelectromechanical systems (MEMS). Fundamental research in these areas enables the technological advances that underpin rapidly developing industries such as information and telecommunications technologies, defence, aerospace, medicine, and remote sensing. Exciting challenges exist in designing new devices that exp ....Australian Network on Microelectronics, Optoelectronics and Microelectromechanical Systems. The Network will encompass semiconductor microelectronics, optoelectronics, sensors and microelectromechanical systems (MEMS). Fundamental research in these areas enables the technological advances that underpin rapidly developing industries such as information and telecommunications technologies, defence, aerospace, medicine, and remote sensing. Exciting challenges exist in designing new devices that exploit unique semiconductor systems and technologies. By sharing capabilities and resources (both capital and human), the network will enable the issues associated with such novel materials and devices to be addressed in a targeted manner. The network will also guarantee the ongoing future of research in the area by actively involving early career researchers and postgraduate students.Read moreRead less
Tools and techniques for cost effective creation of new, reliable and efficient microwave transistors for millimetre wave and wireless applications. Shifting the circuit design paradigm to the requirements of a circuit will provide a low-cost design solution for application with tight size, performance and lifetime constraints. This will enhance the international competitiveness of Mimix Broadband in the microwave wireless, aerospace, and radar markets, which will contribute to Australia's high ....Tools and techniques for cost effective creation of new, reliable and efficient microwave transistors for millimetre wave and wireless applications. Shifting the circuit design paradigm to the requirements of a circuit will provide a low-cost design solution for application with tight size, performance and lifetime constraints. This will enhance the international competitiveness of Mimix Broadband in the microwave wireless, aerospace, and radar markets, which will contribute to Australia's high performance circuit design sector. New knowledge and skilled researchers provided by this project will foster growth of the microwave and wireless industry. The local research community will be advantaged in international reputation and in its efforts to develop future high performance wireless systems.Read moreRead less
Achieving high linearity over broad bands in transistor circuits for communication applications. This project provides techniques to achieve the distortion performance required for the next generation communication circuits. By establishing new knowledge and skill within Australia to expand international competitiveness, it will position Australia as the leader in high performance circuit design, strengthen international collaboration, and allow the development of high performance broadband syst ....Achieving high linearity over broad bands in transistor circuits for communication applications. This project provides techniques to achieve the distortion performance required for the next generation communication circuits. By establishing new knowledge and skill within Australia to expand international competitiveness, it will position Australia as the leader in high performance circuit design, strengthen international collaboration, and allow the development of high performance broadband systems. An opportunity will be presented to enter the transistor characterization market on a competitive basis, which is a business suited to distance working within the international sector. Improved circuit performance will enable breakthrough discoveries in areas like radio astronomy, medical imaging, radar and detection, and instrumentation.Read moreRead less
Future generation high-performance radio communications circuits in gallium nitride technology. Techniques will be developed to exploit the potential of an emerging commercial gallium nitride technology for future communication systems. By establishing new knowledge and skill to expand international competitiveness, it will position Australia among the leaders in high performance circuit design, strengthen international collaboration, and allow the development of future high performance wireless ....Future generation high-performance radio communications circuits in gallium nitride technology. Techniques will be developed to exploit the potential of an emerging commercial gallium nitride technology for future communication systems. By establishing new knowledge and skill to expand international competitiveness, it will position Australia among the leaders in high performance circuit design, strengthen international collaboration, and allow the development of future high performance wireless systems. This is an opportunity to diversify to a new technology on a competitive basis. This circuit design business is suited to distance working within the international sector. Improved circuit performance will enable breakthrough discoveries in areas like medical imaging, radar, detection, and instrumentation.Read moreRead less
Microprobing of Crystal Polarisation in Polycrystalline Compound Semiconductors. We will improve the quality of polycrystalline compound semiconductor thin films, grown by chemical vapour deposition. The novelty of the project is divided between applying new methods to assess film quality and deposition development. An expected outcome will be a measurement system with the unique capability of probing the spatial variation of dielectric polarisation with sub-micron resolution. Polycrystalline ....Microprobing of Crystal Polarisation in Polycrystalline Compound Semiconductors. We will improve the quality of polycrystalline compound semiconductor thin films, grown by chemical vapour deposition. The novelty of the project is divided between applying new methods to assess film quality and deposition development. An expected outcome will be a measurement system with the unique capability of probing the spatial variation of dielectric polarisation with sub-micron resolution. Polycrystalline GaN recently been taken to state of the art performance at Macquarie University, will be the trial material. The information obtained will inform material improvement, with the ultimate aim of fabricating polycrystalline, GaN-based transistors and blue light-emitting diodes on glass substrates.Read moreRead less