Neousys' New Nuvo-9531-FT Fanless Flattop Heatsink Computer

Neousys Technology, a leading provider of rugged embedded systems, has announced the Nuvo-9531-FT series, a compact, fanless computer featuring a flattop heatsink and based on Intel® 13th/12th-Gen Core™ i processors. This rugged computer combines a small form factor with high performance, making it ideal for installation in space-restricted cabinets by utilizing direct contact with the cabinet to dissipate heat efficiently.

The Nuvo-9531-FT introduces an innovative heat dissipation design that leverages the cabinet's surface for thermal management. The flattop-heatsink design reduces the unit's size, allowing it to fit into confined spaces while effectively transferring heat to the cabinet walls for dissipation. This design maximizes thermal efficiency and ensures the system remains cool even in tight environments.

Despite its compact size, the Nuvo-9531-FT offers robust computing power and a variety of I/Os commonly used in industrial applications. Equipped with Intel® 13th/12th Gen processors with up to 24 cores and 32 threads, it delivers up to twice the performance of previous Intel 10th or 11th Gen platforms. It also includes four 2.5GbE ports with optional PoE+, four USB3.2 Gen 1 ports with screw-locks, 4-CH isolated DI, and 4-CH isolated DO, along with VGA and DP dual display outputs.

For storage and expansion, the Nuvo-9531-FT features a Gen4 x4 M.2 NVMe slot for high-speed SSDs and a hot-swappable HDD tray. Users can also add wireless communication modules via two mPCIe and one M.2 E key slot. Its rugged design ensures reliable operation in harsh environments, with a fanless operating range of -25°C to 60°C and a wide-range 8V to 48V DC input, making it suitable for various automation applications.

"Neousys thinks outside the box with the Nuvo-9531-FT, offering an embedded solution ideal for metal cabinets, waterproof boxes, or explosion-proof cases with limited ventilation," said Dennis Chen, product manager at Neousys Technology. "Its unique design utilizes the cabinet's surface for enhanced thermal dissipation while ensuring powerful performance and stability in tight spaces."