It’s the solution for diverse industries, fueled by Intel’s energy-efficient Core i3 N-series processor, uniting robust performance and advanced features.
IBASE Technology Inc. (TPEx: 8050) proudly introduces the IB838 3.5” single board computer (SBC), featuring the energy-efficient Intel Core i3 N-series (formerly known as Alder Lake-N) processor. This cutting-edge SBC seamlessly merges potent computing capabilities with advanced features, making it an ideal solution to cater to various industry requirements. Its versatile applications span various sectors, encompassing industrial automation and control, retail displays, transportation, and automotive applications.
The key features include:
- 1x DDR5 SO-DIMM, Max. 16GB
- 2x Intel PCI-E 2.5G LAN
- 2x USB 2.0, 4x USB 3.2 (1x Type-C + 3x Type-A), 4x COM, 1x SATA III
- 2x M.2 sockets (E-key + B-key), supports CNVi
- 9V~36V wide-range DC input
- Supports Firmware Trusted Platform Module, Watchdog timer, Digital I/O
Enhanced with robust power management capabilities and compatibility with a wide 9V~36V DC input range, this processor guarantees dependable and consistent performance, even in transportation scenarios marked by fluctuating power conditions. Its adaptable connectivity options are fit for automation processes and data acquisition systems. The SBC offers versatile display choices, including Type-C, DP++, and eDP or LVDS, complemented by an extensive array of I/O interfaces. These interfaces encompass two Intel PCI-E 2.5G LAN ports, two USB 2.0 ports, and four USB 3.2 ports (1x Type-C + 3x Type-A), enhancing its versatility and functionality.
Featuring CNVi support and readiness for 5G connectivity, the IB838 offers a high-speed SATA III port and two M.2 sockets (E-key + B-key), ensuring extensive storage and expansion options. It has four serial ports and digital I/O, simplifying connectivity to various devices and peripherals. The SBC also incorporates advanced security measures and enhanced functionality, including fTPM and a Watchdog timer, contributing to overall system stability.
