Add to ORKGArcing and other types of electrical discharges are likely to occur in high-voltage subsystems of the Space Station. Results from ground and space experiments on the arcing of solar cell arrays are briefly reviewed, showing that the arcing occurs when the conducting interconnects in the arrays are at negative potential above a threshold, which decreases with the increasing plasma density. Furthermore, above the threshold voltages the arcing rate increases with the plasma density. At the expected operating voltages (approximately 200 V) in the solar array for the space station, arcing is expected to occur even in the ambient ionospheric plasma. If the ionization of the contaminants increases the plasma density near the high-voltage systems, ...
The interaction of a high-voltage solar array with the space plasma environment is investigated in a...
The conventional wisdom about solar array arcing in LEO is that only the parts of the solar array th...
Multikilowatt power levels for future payloads can be more efficiently generated using solar arrays ...
Solar cells in space plasma conditions are known to arc into the plasma when the interconnects are a...
Ground and flight results of solar cell arcing in low Earth orbit (LEO) conditions are compared and ...
The main obstacle to the implementation of a high-voltage solar array in space is arcing on the cond...
A degradation test for a solar array coupon against electrostatic discharge was performed under a si...
Recent analysis of spacecraft failures during the period of 1990-2013 demonstrated clearly that elec...
International audienceThere are several well-known possibilities to trigger a secondary arc on solar...
Experiments have shown that plasma environments can induce discharges in solar arrays. These plasmas...
The possible interactions that could exist between a high voltage system and the space plasma enviro...
Arcing to negatively biased, exposed solar cell interconnects on solar arrays placed in plasma envir...
Photovoltaic arrays interact with the low earth orbit (LEO) space plasma in two fundamentally differ...
The deleterious effects of spacecraft charging are well known, particularly when the charging leads ...
A variety of experiments were performed which identify key factors contributing to the arcing of neg...
The interaction of a high-voltage solar array with the space plasma environment is investigated in a...
The conventional wisdom about solar array arcing in LEO is that only the parts of the solar array th...
Multikilowatt power levels for future payloads can be more efficiently generated using solar arrays ...
Solar cells in space plasma conditions are known to arc into the plasma when the interconnects are a...
Ground and flight results of solar cell arcing in low Earth orbit (LEO) conditions are compared and ...
The main obstacle to the implementation of a high-voltage solar array in space is arcing on the cond...
A degradation test for a solar array coupon against electrostatic discharge was performed under a si...
Recent analysis of spacecraft failures during the period of 1990-2013 demonstrated clearly that elec...
International audienceThere are several well-known possibilities to trigger a secondary arc on solar...
Experiments have shown that plasma environments can induce discharges in solar arrays. These plasmas...
The possible interactions that could exist between a high voltage system and the space plasma enviro...
Arcing to negatively biased, exposed solar cell interconnects on solar arrays placed in plasma envir...
Photovoltaic arrays interact with the low earth orbit (LEO) space plasma in two fundamentally differ...
The deleterious effects of spacecraft charging are well known, particularly when the charging leads ...
A variety of experiments were performed which identify key factors contributing to the arcing of neg...
The interaction of a high-voltage solar array with the space plasma environment is investigated in a...
The conventional wisdom about solar array arcing in LEO is that only the parts of the solar array th...
Multikilowatt power levels for future payloads can be more efficiently generated using solar arrays ...