Shuttle DH610S, 12th Gen Intel Alder Lake Processors, Dual Displays
- Usually ships in 3-4 business days.
- Calculated at Checkout
Questions? Email to sales@E-ITX.com
Shuttle DH610S Alder Lake 1.3-Liter Slim System
Shuttle XPC Slim DH610S supports Intel 12th Gen LGA1700 Alder Lake processors and integrated UHD graphics 700 series. With a built-in HDMI 2.0 and a DisplayPort, users can easily configure two 4K displays. Multiple I/O ports are included, the model provides four USB 3.2 Gen1 (Including one Type-C), four USB 2.0, an Intel 1GbE LAN, and two M.2 expansion slots to deliver exceptional productivity and a reliable operation. It is affordable and a perfect option for simple digital signage, office, and thin-client use.
12th Generation Intel Alder Lake Processors
Based on the H610 chipset, DH610S is designed for 12th Gen Intel processors and supports up to 64GB (32GBx2) of DDR4-3200 memory, providing powerful computing capacity. Intel UHD Graphics 700 series is integrated to deliver outstanding performance.
DH610S supports two independent displays via a built-in HDMI 2.0b and a DisplayPort output. Moreover, an optional accessory PVG01 can be chosen to offer an optional VGA port, providing productivity benefits for multitasking and digital signage applications.
Strong Storage Expansion Capacity with PCIe 3.0 x4 M.2 Slot
With a native M.2 2280/2260/2242 Type M slot and an M.2 2230 Type E slot, the Shuttle DH610S Mini PC offers considerably faster storage performance and expansion capacity for M.2 PCIe 3.0 X4 SSD and Wi-Fi modules.
Excellent and Flexible Connectivity
DH610S features flexible connectivity options for four USB 3.2 Gen1 (Including one Type-C), four USB 2.0, and an Intel 1GbE Lan that support Wake on LAN functions.
Exclusive Cooling Technology
The Shuttle DH610S features Shuttle’s exclusive heat-pipe cooling system with smart fan design. The clever ventilation design allows for constant air circulation between the inside and outside of the machine resulting in high stability and low noise for long-term operation.