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Australian National Fabrication Facility ANFF
Centre for Energy and Environmental Markets CEEM
Centre for Energy Research and Policy Analysis CERPA
Centre for Quantum Computing Technology CQCT
National ICT Australia NICTA
  Faculty of Engineering

Research Laboratories in the School of EE&T

Electrical Energy Discipline

High Voltage Laboratory

This laboratory has facilities for high voltage testing (AC, DC and Impulse voltages) and condition monitoring of electrical equipment, with partial discharge detection equipment, transformer ratio arm bridges, recovery voltage testing, thermal testing and variable frequency testing of insulation.

Power Electronics and Drives Laboratory

This facility has extensive power electronic inverter/converter systems for operation with a range of motor drives and other applications such as superconducting fault limiting devices. There are also available sophisticated data acquisition systems able to be used for fast on-line parameter determination of rotating machines. The laboratory also has available finite element analysis software for magnetic, thermal and electric field modelling and analysis.

ACRE Laboratory

The Australian Centre for Renewable Energy has a laboratory which provides power quality assessment equipment for monitoring the characteristics of power electronic inverters supplied by renewable sources such as photovoltaic systems.

Telecommunications Discipline

Signal Processing Laboratories

Signal processing includes PCs equipped with the latest Texas Instruments signal processing hardware and standard software package. In addition, these laboratories contain the necessary equipment for analysing speech and video signals.

Mobile Communication Laboratories

The mobile communications laboratories, which were re-equipped in 2001, contains some of the most advanced measurement, and simulation equipment for communication systems. For example, it has facilities for testing GSM, IS-95, 3G, PCS RF and Antenna design.

Communication Networks Laboratories

Communication Network laboratories are equipped with a state of the art experimental environment specifically aimed at carrying out:

Traffic analysis
Design and Testing of Protocols at all levels
Performance Analysis of end terminals and servers
Large scale simulation of networked systems

The experimental network consists of commercial ATM Switches, low and high-end routers and numerous LAN switches. In addition to this, the network consists of a vast array of Linux and FreeBSD based PC routers, wireless LAN, and Infrared access points. The experimental network is fully instrumented with specialist measurement devices both commercial and those based on public domain package which allow real-time and non real time analysis of network traffic and protocol performance.

Microelectronics Discipline

Semiconductor Nanofabrication Facility (SNF)

This is a joint facility between the School of Electrical Engineering and Telecommunications and the School of Physics for conducting research in microfabrication and nanofabrication technologies including silicon quantum computing, MEMS and Photonics . Amongst Australian universities, the SNF is one of the most comprehensively equipped facility with 400 m2 multi-level clean-room. The facility provide capabilities for oxidation and diffusion, state of the art nanolithography system (15nm capability), optical photolithography, deep UV mask aligners, wet processing, several PECVD deposition systems, reactive ion etching systems, MEMS related processes, E-beam evaporator, , STM and device characterisation equipment. It closely supports the work of the Special Research Centre for Quantum Computing which itself has additional advanced processing equipment.

CAD Facilities

A network of SUN workstations supporting software for computer aided design of integrated circuits, VHDL design, MEMS devices. CAD packages include Mentor Graphics, H-Spice, ANSYS.

Photonics Discipline

Silica Optical Fibre Fabrication Facility

This optical fibre facility is for fabricating special silica-based optical fibres and fibre devices. It consists of a MCVD preform fabrication system and a fibre drawing system. It has the capacity to produce rare-earth doped fibres for fibre amplifiers and lasers, photosensitive fibres for fibre Bragg gratings, as well as polarisation maintained fibres, single polarisation fibres, multi-core fibres, D-shaped fibres, etc for many specific applications. It also includes various facilities for characterisation and measurement of fibre preforms and optical fibres. This facility supports the discipline's extensive research activity in optical fibre communication technology.

Polymer Optical Fibre Fabrication Facility

This optical fibre facility is for fabricating special polymer-based optical fibres and related devices. It consists of facilities of material processing, preform fabrication and fibre drawing. It has the capacity to develop electro-optic fibres for optical switches and modulators, laser-dye doped, rare-earth doped for fibre amplifiers and lasers, single-mode polymer optical fibres for fibre Bragg gratings and sensing. This facility supports the discipline's extensive research in novel optical fibre technology.

Optical Waveguide Fabrication Facility

The optical waveguide fabrication facility includes a Hollow Cathode Plasma Enhanced Chemical Vapour Deposition (HC-PECVD), a Hollow Cathode Plasma Enhanced Reactive Ion Etch (HC-RIE) and related equipment in association with the SNF. This facility supports research on photonic waveguide circuitry technology.

Photonics Facility

The discipline has a comprehensive range of photonic facilities to underpin its research activities. It has a great combination of light sources, including a very expensive solid-state laser system that is capable of tuning from 200nm to 2000nm. It has various conventional laser sources including YAG, Argon, He-Ne and diode lasers, as well as amplified spontaneous emission and fibre laser sources. The discipline has a wide variety of equipment - an optical autocorrelator for measuring femtosecond pulses, a low coherence reflectometer for micron resolution device characterisation, a fibre tapering facility for coupler manufacture, a Carl-Zeiss Yena interference microscope for phase measurement, etc.

Systems and Control Discipline

The Systems and Control Research Group has a multidisciplinary focus and facilities spanning several areas in engineering into the biological and medical Sciences. Three groups of laboratories are available

Industrial and Process Control

These laboratories emphasise problem based learning and research using pilot plants. Personal computer based workstations are utilised. Each control workstation comprises a computer equipped with data acquisition equipment and pilot plant. The pilot plants may be motor sets simulating electromechanical systems, interacting tanks whose levels are to be controlled or air heater processes representing process control plants.Standard software packages such as Matlab and Simnon for control design and analysis are routinely used. The department is also equipped with Boeing's EASY5 nonlinear simulation package such as MAPLE software for use in nonlinear control systems design.A variety of software packages have also resulted from the department's research. A modular simulation shell SSIM has been developed for a SUN workstation and allows the user to build up complex simulation from component modules. Another byproduct of the department's research is a real time kernel for adaptive tuning and control.

Systems Neuroscience and Biomedical Engineering

The laboratory is equipped to study human movement control systems. Electrical activity from muscles, nerves and brain as well as joint angles and forces are measured and logged. Response characteristics of reflex and voluntary muscle control systems can be assessed.A systems Physiology Laboratory is equipped to study cardiovascular control systems. This laboratory has a number of medical workstations which meet all the requirements of standard medical practice.

Vision and Control Laboratory

The laboratory is under development. Activities underway include; visual serving experiments and autonomous vehicle control of a model hovercraft.





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