Investigation of 1/f noise mechanisms in HgCdTe heterostructure IR photodiodes. Since the performance of any photon detector is defined by its signal to noise ratio, the reduction of noise generating mechanisms is equally important to improvement of the signal. In this project we propose to carry out, for the first time, a comprehensive analysis of noise generating mechanisms in HgCdTe detectors using recently developed, two-dimensional analysis procedure. The main objective of this project is t ....Investigation of 1/f noise mechanisms in HgCdTe heterostructure IR photodiodes. Since the performance of any photon detector is defined by its signal to noise ratio, the reduction of noise generating mechanisms is equally important to improvement of the signal. In this project we propose to carry out, for the first time, a comprehensive analysis of noise generating mechanisms in HgCdTe detectors using recently developed, two-dimensional analysis procedure. The main objective of this project is to prove that 1/f noise in HgCdTe photodetectors is caused by dark current fluctuations in the high electric field regions of the detector structure. The primary outcome of this work will be the first comprehensive two-dimensional device model that can predict 1/f noise in a semiconductor device.Read moreRead less
Frequency and Voltage Stabilisation in Grid-connected Wind Farms Using Pitch-controlled Doubly Fed Induction Generators (DFIGs). Australian power systems are well developed but currently stretched to their maximum capacity and often over loaded. Development of a pitch controlled doubly-fed induction generator (DFIG) wind farm is a practical solution to extend the capacities of large interconnected power systems. This research ensures that Australian Power Systems are able to incorporate pitch-c ....Frequency and Voltage Stabilisation in Grid-connected Wind Farms Using Pitch-controlled Doubly Fed Induction Generators (DFIGs). Australian power systems are well developed but currently stretched to their maximum capacity and often over loaded. Development of a pitch controlled doubly-fed induction generator (DFIG) wind farm is a practical solution to extend the capacities of large interconnected power systems. This research ensures that Australian Power Systems are able to incorporate pitch-controlled DFIG without sacrificing operational simplicity and flexibility. It allows large scale penetration of renewable wind power into the grid, thereby reducing huge amount of green house gas emissions and delay capital expenditure on critical national assets.Read moreRead less