• Ready for high-speed DDR5 4800 memory, up to 16 GB capacity
• 9–36V Wide DC Input with OCP, OVP, Surge and Reversed Polarity Protection
• Up to 6 x USB Ports and 3 x COM Ports for Retail and Industrial Applications
• 2 x Intel 2.5Gb Ethernet for High-Bandwidth Uplink and Downlink Connection
• Expandable Wireless Connectivity via M.2: Wi-Fi, 5G, and LTE Module
• Support TPM 2.0 to Enhance System Security and Safeguard Critical Data
• Ultra-Compact Fanless Computer for Limited Space Deployment
• Intel® Twin Lake N150 4-core processor up to 3.60 GHz
• Intel Atom® x7433RE 4-core processor up to 3.40 GHz
• Intel® Twin Lake Core™ 3 N355 8-core processor up to 3.90 GHz*
*Project-based SKU
Intel® Graphics
1 x DDR5-4800 SO-DIMM up to 16GB
TPM 2.0
Auto reset for unresponsive system
(custom 1-255 sec/min delay settings in BIOS)
2 x HDMI® up to 3840 x 2160 @ 60Hz as specified in HDMI 2.0b
1 x Line-out, 1 x Mic-in
2 x 2.5GbE (Intel I226-LM) via RJ-45
• 2 x USB 3.2 Gen 1, 2 x USB 2.0 (SBOX-2625-2S, SBOX-2625-3S)
• 2 x USB 3.2 Gen 1, 4 x USB 2.0 (SBOX-2625 only)
• 4 x DI (DC 5-36V), 4 x DO (DC 5V/100mA)
(SBOX-2625-2S only)
• 2 x RS-232/422/485 (SBOX-2625, SBOX-2625-2S)
• 2 x RS-232/422/485, 1 x RS-232 (SBOX-2625-3S only)
• 1 x M.2 3042/3052 Key B supports PCIe and USB interface for WWAN w/ single Nano SIM
• 1 x M.2 2230 Key E for Wi-Fi/BT
• 1 x 2.5” SATA SSD
• 1 x M.2 2242 Key B for SATA SSD*
*M.2 Key B is a combo slot, either WWAN module or M.2 SATA can be installed.
DC 9-36V (nominal power input DC 12V/24V) via 2-pin terminal block
OCP, OVP, surge protection, reversed polarity protection
• Windows 11 IoT Enterprise LTSC
• Ubuntu 24.04 LTS
-40°C ~ 70°C (-40°F ~ 158°F) with 0.6 m/s airflow
-40°C ~ 85°C (-40°F ~ 185°F)
10% RH ~ 90% RH (non-condensing)
CE, FCC Class A, UKCA, IEC/EN 62368-1
Aluminum Alloy
4 x SMA connector mounting hole
DIN rail, Wall, VESA mounting
1.2kg (2.64 lb)
150 x 106 x 55 mm (5.91 x 4.17 x 2.17 in.)
SBOX-2625(2S)(3S)-zzzzz (2S=2 x COM + 1 x DIO, 3S= 3 x COM, zzzzz=N150=Intel® Processor N150,
zzzzz=x7433RE=Intel Atom® x7433RE)
Intel® Twin Lake N150/Atom x7433RE Ultra-Compact Embedded Computer
Made in Taiwan
DDR5-4800 SO-DIMM, 8GB to 16GB
M.2 2242 Key B+M SATA SSD
2.5″ SATA SSD
M.2 2230 Key A-E Wi-Fi module
M.2 3042/3052 Key B WWAN module
AC/DC 100-240V/12V 60W
All specications are subject to change without notice.
Why Real-Time PCBA Coating Inspection Matters in Electronics Manufacturing In today’s fast-evolving electronics manufacturing industry, automated PCBA coating inspection systems powered by Edge Computing and machine vision technologies are becoming essential for ensuring production accuracy, reliability, and long-term product durability. The reliability of a Printed Circuit Board Assembly (PCBA) often hinges on the quality of its conformal coating. This protective layer is the primary defense against moisture, dust, and chemical contaminants. As PCBAs become increasingly dense and complex, manufacturers are turning to real-time edge inspection and industrial edge computing to ensure precise coating application without slowing down production throughput. However, deploying high-performance computing directly inside automated coating systems introduces major engineering challenges. Industrial computing platforms must withstand vibration, operate in compact machine environments, and process massive volumes of visual inspection data with ultra-low latency. High-Speed Automated Inspection in Space-Constrained Coating Systems A leading provider of automated coating solutions recently faced a critical bottleneck while developing their next-generation machine. To achieve the precision required for modern electronics manufacturing, the company needed to integrate high-resolution machine vision cameras for real-time coating defect detection and automated inspection feedback. This created a massive data-processing demand that required high-bandwidth 2.5GbE connectivity and low-latency edge processing to maintain the production line speed and inspection accuracy. The engineering team quickly encountered a major obstacle: traditional industrial PCs were far too bulky to fit within the machine’s narrow control cabinets. Furthermore, the system needed to be installed close to the high-speed robotic arm controlling the coating process. The constant, repetitive mechanical stress and intense vibrations generated by continuous robotic movement created a serious reliability risk for conventional computing hardware. In previous system iterations, these harsh operating conditions frequently caused cable displacement, unstable connections, and unexpected system crashes, resulting in costly production downtime and manual maintenance intervention. For smart manufacturing environments operating 24/7, even brief interruptions can negatively impact production efficiency, inspection...
Read more
The Evolution of Smart Grid Infrastructure As cities transition toward smart grid technology, pole-mounted controllers within medium-voltage distribution networks have become critical components. These pole-mounted controllers provide the necessary remote operation capabilities and high-speed logic processing required to execute self-healing protocols during power anomalies. Reliable communication and low power consumption in these systems are essential for maintaining a stable energy supply across vast metropolitan areas. Challenges in Remote Connectivity and Power Efficiency Traditional PLCs often lack the processing speed required for the complex real-time safety responses needed in modern grids. Furthermore, deploying controllers in remote or outdoor locations presents challenges in communication stability and energy management. High power consumption at scale can significantly increase operational costs, while poor connectivity prevents timely responses to grid failures. The Solution: An Edge Computing SBOX-2625 for Intelligent Power Distribution The SBOX-2625 is designed to outperform traditional PLCs in smart grid applications. Powered by Intel® Twin Lake N150, its 6W TDP low-power architecture minimizes the energy footprint, while its high-speed processing ensures real-time responsiveness. With an M.2 expansion slot for industrial 5G modules, it provides a stable communication backbone even in remote areas. Its ultra-compact fanless design allows for easy installation in the limited space of pole-mounted enclosures. Sustainable Energy Management and Reduced TCO Deploying the SBOX-2625 allows utility providers to achieve 24/7 grid visibility and faster fault isolation. The low-power design results in substantial energy savings across large-scale deployments, effectively reducing the TCO. By minimizing maintenance needs and optimizing the return on investment (ROI), the SBOX-2625 empowers cities to build a more resilient and sustainable smart grid infrastructure. Intel® Processor N150 Ultra-Compact Embedded Computer: SBOX-2625
Read more
Precision and Productivity in Modern Furniture Manufacturing Modern automated furniture production relies on high-speed CNC machines, edge banding, and sophisticated cutting systems to meet today’s market demands. To maintain high output and flexibility within these automated furniture production lines, manufacturers require compact yet powerful controllers to manage real-time logic and synchronize data with ERP systems. However, as these systems become more complex, the demand for localized data processing and industrial-grade reliability has never been higher. Overcoming Edge Computing Bottlenecks and Power Instability In the fast-paced environment of a furniture factory, traditional controllers often face significant challenges. Limited on-site data processing can lead to latency in synchronized operations, while unstable factory power grids pose a risk of system failure. Any unexpected downtime in a high-volume production line can result in substantial financial losses and missed delivery schedules. The Solution: SBOX-2625 with Industrial-Grade Reliability To address these challenges, SINTRONES introduced the SBOX-2625, an ultra-compact rugged computer. Powered by Intel® Twin Lake N-series processors, it provides the necessary performance for edge data processing. It features dual 2.5GbE, six USB ports, and three Serial ports for seamless sensor integration. Most importantly, its 9-36V wide-range power input with OCP/OVP and a Watchdog Timer ensure the system remains stable and recovers automatically from power fluctuations or software hangs. Maximizing Uptime and Reducing Operational Costs By implementing the SBOX-2625, furniture manufacturers can achieve a significant reduction in system-related downtime. The rugged power protection and automatic recovery mechanisms minimize manual intervention, while the improved processing power enables more precise control over CNC operations. This leads to higher production efficiency and a lower total cost of ownership (TCO) for the automated facility. Intel® Processor N150...
Read more
Are you seeking a reliable embedded system that delivers high performance with low power consumption at a budget-friendly cost? The SINTRONES embedded system — powered by the Intel® Twin Lake processor, the latest generation of Intel’s Processor N-series — is a choice you’ll never regret. As the successor to the Alder Lake-N lineup, the Twin Lake family introduces two new CPUs: a Quad-core model optimized for ultra-low power consumption and an Octa-core model designed for enhanced performance. These future-ready processors also ensure product availability for up to 10 years, through 2034 — making them ideal for industrial applications that demand extended lifecycle and long-term support. New Quad-Cores, Ultra-Low 6W TDP Built on four efficient cores (E-cores), the Twin Lake N150 achieves superior performance per watt with a thermal design power (TDP) of only 6W — 50% lower than its predecessor, the Alder Lake N97. This low-power design is especially suitable for large-scale system deployments in factory and retail environments. By cutting CPU power consumption in half, organizations can significantly reduce energy usage, lowering total cost of ownership (TCO) over time. Performance Where It Counts For heavier workloads, the Intel® Core™ 3 Processor N355 provides exceptional value with a max turbo frequency of 3.9GHz and GPU clock speeds up to 1.35GHz. The Twin Lake Octa-core CPU delivers a 10% boost in multi-threaded performance compared to the Alder Lake Core™ i3-N305, while maintaining the same efficient power profile. This performance uplift ensures greater efficiency and value without increasing energy consumption. 10-Year Product Longevity Lifecycle Support Launched in early 2025—two years after Alder Lake-N—the Twin Lake series provides product lifecycle support until 2034. With long-term availability and consistent...
Read more
SINTRONES is excited to present the SBOX-2625, an ultra-compact edge computer offering a versatile range of processors — from the mainstream Intel® Twin Lake 4-core N150, to the advanced 8-core Core™ 3 N355, and the industrial-grade Intel® Amston Lake x7433RE — tailored to meet diverse application demands. Optimized Performance, Minimized Power Consumption Integrated with the Intel® Twin Lake N150 featuring an ultra-low 6W TDP, the SBOX-2625 provides superior performance-per-watt efficiency compared to similar edge computers based on the Alder Lake-N series. Achieving the exceptional balance between computing performance and power consumption, this edge computer not only ensures reliable operation but also prolongs hardware lifespan, making it an ideal choice for energy-sensitive and resource-constrained applications across industries. 70% Faster with a More Powerful CPU For models equipped with the industrial-grade Intel® Amston Lake x7433RE processor, the successor to Intel® Elkhart Lake series, the SBOX-2625 supports operating temperature ranging from -40°C to 70°C while achieving up to 1.7× higher performance than comparable systems using the Elkhart Lake x6000 series processors — all at equivalent power consumption. This performance boost enables faster data processing and real-time response, providing minimal latency and seamless integration that are critical for smart automation, edge computing, and industrial IoT applications. 50% Smaller — Engineered for Space Efficiency Intentionally designed to achieve ultra-compact footprint, the SBOX-2625 is nearly half the size of its predecessors. The ultra-slim and fanless design ensures flexible deployment and minimal maintenance in various environments — from industrial control cabinets to retail systems — maximizing versatility and space utilization. Resilient to Power Issues and Data Breaches To ensure fail-safe operation, the SBOX-2625 supports a wide input voltage range (DC 9V to 36V) and incorporates robust safety...
Read more
