Effect of voltage level on power system design for solar electric propulsion missions

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Effect of voltage level on power system design for solar electric propulsion missions

Kerslake, T.W.

This paper presents study results quantifying the benefits of higher voltage electric power system designs for a typical solar electric propulsion spacecraft Earth orbiting mission. A conceptual power system architecture was defined and design points were generated for system voltages of 28, 50, 120 and 300V using state-of-the-art or advanced technologies. A 300 V 'direct-drive' architecture was also analysed to assess the benefits of directly powering the electric thruster from the photovoltaic array without up-conversion. Fortran and spreadsheet computational models were exercised to predict the performance and size of power system components to meet spacecraft mission requirements. Pertinent space environments, such as electron and proton radiation, were calculated along the spiral trajectory. In addition, a simplified electron current collection model was developed to estimate photovoltaic array losses for the orbital plasma environment and that created by the thruster plume. The secondary benefits of power system mass savings for spacecraft propulsion and attitude control systems were also quantified. Results indicate that considerable spacecraft wet mass savings were achieved by the 300 V and 300 V direct-drive architectures.