ASRock Industrial Leads with SBC-262M-WT Motherboard Powered by Intel Atom x7433RE for Next-Generation Edge Computing

ASRock Industrial Leads with SBC-262M-WT Motherboard Powered by Intel Atom x7433RE for Next-Generation Edge Computing

1.118
Views
0 Comments

ASRock Industrial is thrilled to announce the launch of its latest innovation, the SBC-262M-WT 3.5” SBC Motherboard, a new benchmark in edge computing, powered by the advanced Intel® Atom® x7433RE Processor (Amston Lake). Designed with enhanced CPU and GPU performance, this motherboard ensures an optimal balance between performance, cost-efficiency, and versatility for various computing needs at the edge. Supporting of DDR5 4800 MHz memory, the SBC-262M-WT features an extensive array of I/O capabilities, including triple 4K display outputs, featuring dual LAN one support up to 2.5G with Intel® TSN/TCC for real-time computing, one Gigabit LAN and versatile storage options with SATA 3.0 and M.2 Key M, along with expansion slots like M.2 Key E and M.2 Key B. With wide operating temperature support from -40 to 85 °C, the SBC-262M-WT is ideal for a wide range of applications, from smart retail, and smart cities to embedded industrial environments, setting a new standard for industrial motherboards.

Core Features Supporting SBC-262M-WT Motherboard

  • Superior Performance: Powered by Intel® Atom® x7433RE Processor (Amston Lake) up to 4-core, boosting both CPU and GPU efficiency, alongside significant enhancements in AI inference capabilities.
  • High-Speed Memory Support: The motherboard is equipped with a 262-pin SO-DIMM slot for DDR5 4800 MHz memory, supporting up to 48GB. This ensures fast and efficient performance for data-intensive applications, enabling smooth multitasking and quick data processing.
  • Extensive Connectivity Options: With two USB 3.2 Gen2, four USB 2.0, four COM ports, one M.2 Key E (2230) for WiFi, and one M.2 Key B (3042/3052) for 4G/5G connectivity, the SBC-262M-WT offers a wide range of connection possibilities. This allows for flexible expansion and customization according to specific project requirements.
  • Dual Storages Support: Featuring one M.2 Key M (2242/2280) for SSDs and one SATA3 for storage, the motherboard supports a variety of devices and data management solutions.
  • Advanced Networking Capabilities: Equipped with one Intel® 1 Gigabit LAN and one Intel® 2.5 Gigabit LAN, the SBC-262M-WT facilitates high-speed network connections and real-time computing with Intel® TSN/TCC, ensuring reliable and fast communication for industrial applications.
  • Triple Display Support: The motherboard supports triple display via one HDMI 2.0b, one DP 1.4b, and one LVDS and one eDP, offering versatile display options for enhanced productivity and immersive visual experiences in various industrial settings.
  • Wide Operating Temperature: The motherboard comes prepared to endure severe temperatures, spanning from -40 °C to 85 °C, and provides 9~36V DC-In PWR, guaranteeing operational resilience and durability in challenging conditions.

The SBC-262M-WT motherboard enhances edge computing capabilities, leveraging cutting-edge Intel® Atom® x7433RE Processor for unparalleled efficiency and performance. This integration underscores our commitment to advancing edge IoT technology, providing robust and reliable solutions for complex industrial environments.

For more product information about the new SBC-262M-WT motherboard, please check our Website Product Page and contact us at Product Inquiry.

Please follow and like us:
Pin Share
About mixos

Mike is the founder and editor of Electronics-Lab.com, an electronics engineering community/news and project sharing platform. He studied Electronics and Physics and enjoys everything that has moving electrons and fun. His interests lying on solar cells, microcontrollers and switchmode power supplies. Feel free to reach him for feedback, random tips or just to say hello :-)

view all posts by admin
Subscribe
Notify of
guest

0 Comments
Inline Feedbacks
View all comments
Get new posts by email:
Get new posts by email:

Join 97,426 other subscribers

Archives