UV-exposure experiments for the Solar Probe Plus array

NASA's Solar Probe Plus (SPP) will travel closer to the Sun than any previous spacecraft. During its 7-year, 24-orbit mission, SPP will make scientific measurements of the solar corona, reaching minimum perihelion at ~9.5 solar radii (R s ) from the center of the Sun. The solar array wings powe...

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Bibliographic Details
Main Authors: Boca, Andreea, Blumenfeld, Philip, Crist, Kevin, De Zetter, Karen, Richards, Benjamin, Sarver, Charles, Sharps, Paul, Stall, Richard, Stan, Mark
Format: Conference Proceeding
Language:English
Subjects:
aerospace testing
Arrays
Degradation
Extraterrestrial measurements
performance evaluation
photovoltaic systems
space technology
Substrates
Sun
Temperature distribution
Temperature measurement
Online Access:Request full text
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Summary:NASA's Solar Probe Plus (SPP) will travel closer to the Sun than any previous spacecraft. During its 7-year, 24-orbit mission, SPP will make scientific measurements of the solar corona, reaching minimum perihelion at ~9.5 solar radii (R s ) from the center of the Sun. The solar array wings powering the spacecraft will operate under wide-ranging temperature and irradiance conditions, of 0 to 27×AM0 and -70 to +160°C nominally, with transient off-nominal survivability required up to 80×AM0. Over the mission duration, portions of the array may accumulate a total of over 200,000 sun hours. To properly size the array, its performance must be quantified through end-of-life, with the greatest uncertainty coming from our understanding of UV-induced degradation at high irradiance and high temperature (HIHT). The array's short-term ability to function with no measurable degradation at the peak irradiances expected at 9.5 R s has already been demonstrated with adequate margin on small-scale but otherwise flight-like test articles. However over 90% of the mission time will be spent by the array operating at relatively more moderate irradiances at or below 10×AM0. This paper gives an overview of results from two SPP-specific HIHT UV-exposure experiments we have performed at ~10×AM0, over durations of ~1000 hours each. The first experiment was performed in the facilities of the Boeing Radiation Effects Laboratory in Kent, WA, and it focused on the dependence of UV-induced array performance degradation on the choice of materials used in fabricating the coverglass-interconnect-cell (CIC) assemblies, at a fixed temperature of ~180°C. The second experiment was performed in the facilities of the JAXA Inner Planetary test laboratory in Sagamihara, Japan, and its focus was on measuring the temperature dependence of UV-induced array performance degradation between 120 and 240°C.
ISSN:0160-8371
DOI:10.1109/PVSC.2013.6745119