Sbc single board computer
I have found results from600+products and200+suppliers aboutSbc single board computer
Mekotronics Rockchip Rk3588 Sbc, Mini PC, Arm PC, Embedded PC, Single Board Computer 4+32g
8K Rockchip Rk3588 Sbc, Mini PC, Arm PC, Embedded PC, Single Board Computer 4+32g
8K Rk3588 HD Mini PC, Embedded PC, Single Board Computer 8g+64G
Rockchip Rk3588 Mini PC, Arm Embedded PC Single Board Computer, Sbc 8g+64G
Real 8K Rockchip Rk3588 Sbc, Mini PC, Embedded PC, Single Board Computer 16g+64G
Mekotronics Rockchip Rk3588 Sbc, Mini PC, Arm PC, Embedded PC, Single Board Computer 16g+64G
Mekotronics Rockchip Rk3588 Sbc, Mini PC, Arm PC, Embedded PC, Single Board Computer 8g+64G
Mekotronics R58X 4G America 4G Module Mini PC Rk3588 Industrial PC Nvme Single Board Computer 6 Tops Npu 16+128g
Mekotronics R58X Mini PC Rk3588 Single Board Computer HDMI Input M. 2 Pcie Nvme 16+128g
Mekotronics R58X Single Board Computer 16+64G Rk3588 M2 Pcie Nvme HDMI Input 8K
Mekotronics R58X-HDD Single Board Computer 2.5 Inch Hard Drive Slot Rk3588 8+64G
Mekotronics Rk3588 8+64G R58X-PRO Single Board Computer Pice Front Display 10g Ethernet
Mekotronics 8+64G R58X-HDD Single Board Computer 2.5 Inch Hard Drive Slot Rk3588 HDMI Input
Rockchip Rk3588s Sbc Octa Core 2.4GHz 8nm 6tops Single Board Computer
Versatile Rk3568 Single Board Computer 4K 60fps Decoding Industrial Ready Reliable Performance
Rock Pi 4b Rockchip Rk3399 Arm Cortex Six Core Sbc/Single Board Computer Compatible with Official Raspberry Pi
Rockchip Rk3399 Arm Cortex Six Core Sbc/Single Board Computer Compatible with Official Raspberry Pi
Wholesale Rockchip Rk3568 Arm Cortex Six Core Sbc/Single Board Computer Compatible with Official Raspberry Pi
Rock Pi 4 Model B Arm Cortex Six Core Sbc Single Board Computer Compatible Raspberry Pi
Rock Pi 4 Model B and Model C Rockchip Rk3399 Arm Cortex Six Core Sbc Single Board Computer Wholesale
Raspberry Pi Single Board Computer Rock Pi 4b Arm Cortex Six Core Sbc.
Wholesale Rock Pi 4b Rockchip Rk3399 Arm Cortex Six Core Sbc Single Board Computer
Sourcing guidance for Sbc Single Board Computer
How to choose the right processor architecture for an SBC?
Selecting the architecture depends on your software ecosystem. ARM-based SBCs (like those using Rockchip or Broadcom) are ideal for IoT, mobile applications, and low-power consumption, while x86-based SBCs (Intel or AMD) are better for Windows-based applications, complex industrial software, and high-performance computing where legacy software compatibility is required.
What are the key memory and storage specifications to consider?
For smooth performance, prioritize LPDDR4 or LPDDR5 RAM with a minimum of 4GB for Linux desktops or 8GB+ for AI and server tasks. Regarding storage, ensure the board supports eMMC modules or NVMe M.2 SSDs rather than just microSD cards, as NVMe provides significantly higher IOPS and long-term reliability for industrial data logging.
Which connectivity and I/O interfaces are essential for industrial SBCs?
Verify the availability of Gigabit Ethernet (PoE support is a plus) for stable networking. For hardware integration, check for GPIO headers, UART, I2C, and SPI pins. If your project involves displays, ensure the board has HDMI 2.0, MIPI-DSI, or DisplayPort capable of the required resolution, and look for USB 3.0/Type-C ports for high-speed peripheral data transfer.
What thermal management and power requirements should be met?
High-performance SBCs generate significant heat; look for boards with integrated heatsink mounting holes or active cooling headers. Ensure the power input is stable, preferably supporting a wide voltage range (e.g., 9V-36V DC) for industrial environments, and use USB-C PD or barrel jacks to prevent brownouts during peak CPU loads.
How to ensure compliance and longevity for B2B procurement?
Confirm that the SBC meets CE, FCC, and RoHS standards for international trade. Crucially for B2B, ask the supplier for a Product Longevity Commitment (typically 5-10 years) to ensure that the specific model won't be discontinued, which would force an expensive redesign of your end product.
Cross-Border Sourcing Considerations for SBCs
What are the common risks when importing SBCs from overseas?
The primary risks include counterfeit components (refurbished SoC/RAM) and firmware vulnerabilities. Always request a sample for benchmarking and use Made-in-China.com's Secured Trading services to ensure the hardware specifications match the advertised technical datasheet before releasing full payment.
How to negotiate effectively with SBC manufacturers?
Focus on Tiered Pricing based on volume and ask for customization options (OEM/ODM) such as removing unnecessary ports to reduce costs. Negotiate for Technical Support SLAs, ensuring the manufacturer provides updated BSP (Board Support Packages) and Kernel source code to facilitate your software development.
What are the shipping and logistics precautions for electronic components?
SBCs are sensitive to static and physical impact. Insist on Anti-Static Bag (ESD) packaging and vacuum sealing for bulk shipments. For international shipping, ensure the HS Code (typically 8471.50) is correctly declared to avoid customs delays and verify if the lithium CMOS batteries (if included) comply with IATA dangerous goods regulations for air freight.
How to verify the supplier's manufacturing capability?
Check if the supplier on Made-in-China.com is an Audited Supplier with an ISO 9001 certified factory. Request a video factory tour focusing on their SMT (Surface Mount Technology) lines and AOI (Automated Optical Inspection) stations to ensure high-precision soldering and quality control.





























