NASA’s Europa Clipper mission is set to answer specific questions about Europa’s ocean, ice shell, composition, and geology.
(Image Credit: NASA)NASA's Europa Clipper mission, set to explore Jupiter's icy moon Europa, is facing critical challenges as launch preparations progress.
The manufacturer is now working closely with the mission team to support ongoing radiation tests and analysis to assess the risk these parts pose to the Europa Clipper.
Radiation-hardened electronics are essential for protecting spacecraft from space radiation damage.
Despite these challenges, the Europa Clipper mission remains on track, with a launch window opening on October 10.
NASA’s Europa Clipper mission is set to answer specific questions about Europa’s ocean, ice shell, composition, and geology. (Image Credit: NASA)
NASA's Europa Clipper mission, set to explore Jupiter's icy moon Europa, is facing critical challenges as launch preparations progress. The spacecraft, which arrived at Kennedy Space Center in Florida in May, recently had its high-gain antenna attached. However, concerns have arisen about the durability of its radiation-hardened transistors, crucial components for managing electrical flow on the spacecraft.
Engineers from NASA's Jet Propulsion Laboratory (JPL) in Southern California, which manages the mission, are conducting extensive tests on these transistors. The testing was prompted by indications that the parts might not withstand Jupiter's intense radiation environment. This radiation, the most severe in the solar system, poses significant risks to the spacecraft's electronics.
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Additional testing is being carried out at Johns Hopkins Applied Physics Laboratory (APL) in Maryland and NASA's Goddard Space Flight Center in Maryland. The APL, in collaboration with JPL and NASA Goddard, designed the main spacecraft body.
The issue with the transistors surfaced in May when it was discovered that similar components were failing at lower radiation doses than anticipated. An industry alert was issued in June 2024 to notify users of this problem. The manufacturer is now working closely with the mission team to support ongoing radiation tests and analysis to assess the risk these parts pose to the Europa Clipper.
Preliminary test data suggests that some transistors may fail in Jupiter's high-radiation environment because they are not as radiation-resistant as initially thought. The team is currently determining the susceptibility of these transistors and their in-flight performance. NASA is exploring options to maximize the transistors' longevity during the mission, with a preliminary analysis expected by late July.
Radiation-hardened electronics are essential for protecting spacecraft from space radiation damage. The Jupiter system is particularly hazardous due to its massive magnetic field, which is 20,000 times stronger than Earth's. This field traps charged particles, accelerating them to high energies and creating intense radiation that bombards Europa and other inner moons. The newly identified issue affecting the Europa Clipper's transistors represents a gap in the industry-standard radiation qualification of transistor wafer lots.
Despite these challenges, the Europa Clipper mission remains on track, with a launch window opening on October 10. The spacecraft is scheduled to arrive at Jupiter in 2030, where it will conduct detailed investigations to assess Europa's potential habitability through multiple flybys of the moon.
