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3D PLUS has more than 210,000 microelectronics components in space, and more than 25 years of flight heritage with no reported failure. Our Flight Heritage is expanding continuously with products launched in Space every month in LEO, MEO and GEO orbits, for deep space exploration missions, for satellite constellation fleets, and for governmental missions in Europe, America, and Asia. Our Flagship missions include Mars 2020, Mars Science Laboratory, Rosetta, New Horizons, Juno, OneWeb, AlphaSat, Sentinel, Ariane 5, ISS, Parker Solar Probe, Insight, and many more.
On September 24, NASA’s Interstellar Mapping and Acceleration Probe (IMAP) successfully lifted off from Kennedy Space Center in Florida. The spacecraft is now on its way to the first Sun-Earth Lagrange point (L1), about 1 million miles from Earth, where it will study the heliosphere—the Sun’s protective magnetic bubble that shields our solar system from cosmic radiation.
IMAP’s goal is to map the boundaries of the heliosphere, improving our understanding of how solar wind and cosmic particles interact with this protective barrier. Over the next 3-4 months, the probe will travel to its final orbit, arriving in January 2026. Once operational, it will provide near real-time data on space weather, supporting both deep space exploration and Earth-based technologies.
The mission carries 10 scientific instruments, designed to analyze particles from the Sun and interstellar space. This data will help researchers track solar activity and its effects on satellites, electronics, and astronauts.
3D PLUS is proud to support IMAP with our DDR2 memory modules, LCL protection components, and LVDS interfaces. These products ensure reliable data handling and protection in the demanding environment of space, contributing to the mission’s success.
Space weather impacts more than just auroras—it affects satellites, communication systems, and even power grids on Earth. IMAP’s observations will help mitigate risks for future missions, including NASA’s Artemis program.
IMAP and the heliosphere Credit: John Hopkins Applied Physics Laboratory.
