AICSYS Inc. PFC-103M: Ruggedized Aluminum Fanless Chassis with 3 drive bays support ATX motherboard
September 20, 2018
AICSYS Inc. PFC-103M, a Fanless Chassis for high heat dissipation. Constructed by thickness 2.5mm aluminum for the front, rear and top panel, and 10mm heat sink on each sides to provide maximum...
|PFC-103M Aluminum Fanless Chassis for ATX form factor|
|PFC-103M Aluminum Fanless Chassis support 3 drive bays|
AICSYS Inc., an innovative global Industrial Computer hardware manufacturer is delighted to announce PFC-103M, a Fanless Chassis for high heat dissipation. Constructed by thickness of 2.5mm aluminum for the front, rear and top panel, and 10mm heat sink on each side provides maximum heat conductivity and superior rigidness. Designed for industrial ruggedized environments to ensure high system permanence and compatibility.
PFC-103M is an aluminum fanless chassis that supports Mini-ITX, microATX and ATX motherboard, and high heat dissipation by Ø6mm heat pipes for CPU and graphic card by 10mm for side heat sinks. PFC-103M accommodate (3) 3.5"/2.5” internal drive bays, or (1) external slim ODD, and (1) 3.5” + (1) 2.5” internal drive bays. Integrated LED indicator for power On/Off in the front panel with (2) USB 3.0 ports. Able to expand up to (3) full-height cards or (1) low profile card in the rear panel. The PFC-103M exterior color comes with Black, Silver and Dark Gray sandblasted finish for a solid stunning look.
AICSYS Inc. provides the Industrial Automation market with innovative, quality IPC product and superior customer services for OEM/ODM customization project services. Please contact AICSYS Inc. to make a difference for your next project.
-Full Aluminum Chassis
-Supports ATX, microATX and Mini-ITX motherboard
-Supports Drive Bays:
(3) 3.5" / 2.5" drive bays or
(1) Slim ODD, (1) 3.5" & (1) 2.5" drive bays
-Supports (2) USB 3.0 (or USB 2.0 by cable selection)
(6) Heat pipes for CPU, and
(6) Heat pipes for full-size Graphic card
-Rear Panel expansion slot:
(3) slots for full-height card, and