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HIGH FREQUENCY TRANSFORMER LINKED CONVERTERS FOR PHOTOVOLTAIC APPLICATIONSLI, QUAN, q.li@cqu.edu.au January 2006 (has links)
This thesis examines converter topologies suitable for Module Integrated Converters
(MICs) in grid interactive photovoltaic (PV) systems, and makes a contribution to
the development of the MIC topologies based on the two-inductor boost converter,
which has received less research interest than other well known converters.
The thesis provides a detailed analysis of the resonant two-inductor boost converter
in the MIC implementations with intermediate constant DC links. Under variable
frequency control, this converter is able to operate with a variable DC gain while
maintaining the resonant condition. A similar study is also provided for the resonant
two-inductor boost converter with the voltage clamp, which aims to increase the
output voltage range while reducing the switch voltage stress. An operating point
with minimized power loss can be also established under the fixed load condition.
Both the hard-switched and the soft-switched current fed two-inductor boost
converters are developed for the MIC implementations with unfolding stages. Nondissipative
snubbers and a resonant transition gate drive circuit are respectively
employed in the two converters to minimize the power loss.
The simulation study of a frequency-changer-based two-inductor boost converter is
also provided. This converter features a small non-polarised capacitor in a second
phase output to provide the power balance in single phase inverter applications.
Four magnetic integration solutions for the two-inductor boost converter have also
been presented and they are promising in reducing the converter size and power loss.
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