CPT10M

Intel® Core i7 Broadwell Processor, 9V to 36V DC-in, Extended Temp. -40 ~ 70°C

  • Design for reliability under demanding MIL-STD-810G Thermal, Shock, Vibration, Humidity/EMI/EMC conditions
  • Heavy-duty fully IP54 Rugged aluminum chassis with M12 connectors
  • 5th Gen Intel® Broadwell-U processors Onboard
  • XR-DIMM DDR3L Up to 16GB
  • Multi-Displays by 2 x DisplayPort
  • 2 x RJ45 , 2 x M12 Rugged Ethernet connectors
  • 1 x Rugged Digital I/O
  • 2 x USB 3.0, 2 x USB 2.0, 4 x COM ports (3 x RS232, 1x RS232/422/485)
  • 9V~36V DC-in by M12 connector
  • Extended Temperature -40 to 70 °C
  • 2 optional power for EN50155 compliance

Thermal solution:

To meet customer's extended temperature requirements, CPT10M is equipped with three sides of special fin-designed aluminum heat sink, directly contact with the motherboard for high efficient heat conduction. Adopting the physical property of aluminum, plus large surface of extraordinary design of chassis, the heat sinks are able to dissipate the heat into surrounding air promptly not only from the top but also from dual sides of the system. With the benefits of fanless design, CPT10M can ensure high reliability and stability while working under wide range temperature from -40 up to 70°C.

Patent Designed Aluminum Heat Sink

The heat sink is made by heat radiating material, which is aim to lowering the temperature by dissipating heat into the surrounding air.

M12 Rugged Military Grade Connectors

CPT10M provides 2 x LAN ports and DC-IN with rugged M12 connectors.

  • M12 connectors highlight on robust joint, compact size and reliability. Screw lock mechanism pushes security and reliability to the extreme.
  • Field-Wireable M12 connectors boast its convenience in reduction in wiring time. No extra tools are required for extra secure connection.

Aluminum heat sink

Dual sided aluminum heat sink transfer heat from copper heat pipe and dissipate rapidly to surrounding air.

2 x 2.5" SSD/ HDD Tray

The system equipped 2 removable SSD/HDD trays, for applications which require possible removing of data storage.