Product Specifications¶
Technical Details¶
Feature |
Specification |
Details |
|---|---|---|
Processor |
CPU |
Intel Atom® x6413E Processor, 1.5/3.0 GHz (Standard) |
Memory |
RAM |
Up to 32GB DDR4 SoDIMM, 3200 MHz |
Storage |
NVMe |
1x NVMe B+M Key, 2x PCIe 3.0 Lanes |
SATA |
1x SATA DOM Connector |
|
Security |
TPM |
TPM 2.0 |
I/O Ports |
DisplayPort |
1 port |
HDMI |
1 port |
|
Gigabit Ethernet |
3x RJ45 ports, 2.5 Gigabit, Intel i225/226-IT LAN chip |
|
USB 3.0 |
3 ports |
|
USB 2.0 |
1 port |
|
Serial Ports (RS232/422/485) |
2 ports, with optional 2 additional RS232/422/485 |
|
Connectivity |
Ethernet |
3x (10/100/1000/2500 Base-T), Intel i225/226-IT LAN chip |
WLAN (optional) |
Optional, via mPCIe |
|
WWAN (optional) |
Optional 4G/5G |
|
Expansion |
SIM Slot |
1x Nano SIM Slot, plus 2x optional Micro SIM Slots |
Additional |
Digital I/O and CAN |
Optional Digital I/O, CAN available |
Watchdog Timer |
System reset, programmable from 1 to 255 seconds |
|
Environmental |
Operating Temperature |
-20° to 70° C |
Storage Temperature |
-20° to 80° C |
|
Humidity |
5% to 95% non-condensing |
|
Power |
Power Supply |
12-36V DC, 4-pin terminal block type and DC jack |
Power Adapter |
Optional 60W, 24V/5A external, CR1220 CMOS Battery |
|
Mounting |
Options |
Wall mount and DIN-Rail mounting kits available |
Operating System |
Compatibility |
Windows 10/11, Ubuntu Linux, others upon request |
Physical Build |
Material/Color |
Steel / Aluminum |
Ingress Protection |
IP20 |
|
Dimensions |
64 x 140 x 92 mm |
|
Weight |
800 g |
System Information¶
Being a powerful, yet small fanless system, the Arrakis Mk4 may reach very high surface temperatures in excess of 60°C/140°F with risk of injury. Users should ensure sufficient protection against touching.
To allow for sufficient heat removal we recommend: 30mm distance on either side of the Arrakis Mk4 when mounted on a DIN-Rail 100mm headroom above the Arrakis Mk4 when mounted horizontally. The heatsink should be on top.
System Drawing¶
Mainboard Block Diagram¶
This block diagram describes the relationship among all interfaces and modules on the mainboard.
