12cm Dust Free Rotation Technology Fan
Super High Pressure up to 4.812mm-H2O
Perfect for Radiators and Chassis
The Enermax UCDFP12P is a high performance 12cm fan with Enermax's exclusive technologies, ideal for CPU coolers and chassis. The high pressure technology produces powerful yet silent downdraft airflow to cool hot spots effectively, while the twister bearing technology ensures quiet operation. The smart APS (Adjustable Peak Speed) control with three peak rpm options provides excellent balance between cooling performance and silent operation. The DFR (Dust Free Rotation) technology instantly blows away the dust to prolong the lifespan. Plus, it's pre-installed with shockproof rubber pads to reduce vibration.
Exclusive DFR Technology
The Enermax UCDFP12P incorporates the exclusive DFR (Dust Free Rotation) technology, which allows the fan to swiftly blow away dust in order to prolong the lifespan.
Unique APS Control
APS control provides three peak rpm options. Users can easily adjust their perferred fan "PEAK" speed by simply shifting the speed control. The control switch is located on the side of the frame, making the fan speed adjustment much easier and safer. The fan will run on a pre-set RPM range of customized performance between cooling performance and silent operation.
High Pressure Technology
The high pressure blade design is a precision engineering of the blade angle and shape calculation. The blades centralize dispersed air flow to the center of the fan and create extremely high air pressure high airflow while maintaining outstanding quietness.
The high air pressure design drives the airflow to a greater distance while directing the strong, concentrated wind to cool hot spots and boost the cooling efficiency.
Twister Bearing Technology
The Enermax UCDFP12P uses magnets instead of oil to stabilize the bearing. Without the friction and traction of oil-based bearings, the magnetic fields allow for stabilization without deterioration of the bearing and lack the operating noise and the well-known noise increase over time of oil-based bearings. Additionally, the lack of oil allows higher ambient temperatures and longer life time.