Extending the Endurance of Small Unmanned Aerial Vehicles Using Advanced Flexible Solar Cells
NAVAL POSTGRADUATE SCHOOL MONTEREY CA
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Most currently fielded small unmanned aerial vehicles SUAV have flight times limited to 90 minutes due to battery life and are often forced to work in teams of multiple craft to provide tactical level units with continuous observation of the battlefield. Continuous operations additionally place a strain on logistics trains by requiring either more batter-ies or fuel to support recharging. Prior theses have examined the ability of solar cells to extend the flight endurance and capabilities of SUAVs during peak sunlight conditions. This research demonstrated the viability of augmenting the onboard power supply with advanced thin-film photovoltaic TFPV cells made of copper-indium-gallium sele-nide CIGS over a longer period of time. The additional source of power will reduce, at times even eliminate, the demand on the lithium polymer batteries of a Raven SUAV as sunlight conditions change throughout the day. All components used in construction were commercially available, including foam wings that closely resembled the air-foil of a Raven SUAV with increased surface area. The laboratory tests used standard operating procedures from the operators manual and input from the training community to accurately simulate flight conditions and field use. This research demonstrates that degraded components and non-ideal sunlight conditions still provide a significant improvement over the original system for a minimal cost in money and weight. The approach is relevant to the use of the system in austere combat zones which require results in conditions that are rarely ideal. The research additionally applied projections to the capabilities of the augmenting circuitry on unmodified Raven wings and Puma SUAVs.
- Pilotless Aircraft