A compact system on module developed by Variscite brings affordable and scalable solutions for edge computing and IoT applications.
Variscite, Israel has introduced the DART-MX91, a system on module (SoM) tailored for cost-sensitive edge computing, IoT, and industrial applications. Built on NXP’s i.MX91 architecture, this module combines affordability, performance, and scalability. Measuring 55mm x 30mm, it provides essential connectivity and computational power, making it suitable for compact devices and industrial-grade environments.
Equipped with a 1.4GHz Cortex-A55 processor, the SoM supports up to 2GB LPDDR4 RAM and 128GB eMMC storage. Its robust connectivity includes dual CAN-FD, dual Gigabit Ethernet, dual USB 2.0, certified Wi-Fi 6, and optional 802.15.4 support. Additionally, it operates efficiently across industrial temperature ranges, ensuring reliability in harsh environments.
Designed for developers working on IoT solutions, industrial automation, smart city infrastructure, and connected sensors, the SoM caters to a wide range of industries needing cost-effective yet reliable embedded systems. Its compatibility with the company’s DART Pin2Pin family offers scalability, enabling teams to upgrade or diversify their products without redesigning the carrier boards, which helps reduce development costs.
“With the addition of this new entry-level System on Module to our DART Pin2Pin family, Variscite is expanding the range of its scalable solutions to meet the requirements of developers working on cost-sensitive projects,” said Ofer Austerlitz, vice president, business development and sales, Variscite.
Backed by Variscite’s 15-year longevity commitment, the SoM ensures long-term availability for developers. Its affordability, combined with integrated features, positions it as a reliable solution for edge applications, particularly for IoT and connected devices.
This new SoM is now available for ordering, providing developers access to a cost-efficient platform that bridges performance and scalability for diverse embedded systems.
