Virtually Silent due to Fluid Dynamic Bearing
As a special feature, the P12 Max is equipped with ARCTIC's proven Hydrodynamic Bearing. This enables virtually silent operation at low speeds that customers have been asking for. At maximum speed, brute performance is still guaranteed. Although these bearings tend to wear out, ARCTIC does not compromise on durability and still offers a 6-year warranty.
Extremely Wide Speed Range
The P12 Max features a controllable speed range from 400 rpm up to 3300 rpm. This enables quiet operation when low airflow is needed and also an unprecedented level of performance on heatsinks and radiators. The P12 Max provides a significant performance boost to existing air and water cooling solutions.
Maximum Performance - Without Compromises
The P12 Max delivers focused airflow and high static pressure, making it suitable for all scenarios. The fan is optimised for use on radiators, heat sinks, pinholes, and mesh. Therefore, the P12 Max is the ideal fan for enthusiasts and professionals who are looking for maximum performance with a long service life.
0 dB Mode - Zero RPM
The fan speed can be throttled down to standstill via PWM. This allows silent operation in IDLE and at the same time guarantees maximum performance when required. Thus, the P12 Max allows an incomparably dynamic adjustment of speed, so that the airflow can be perfectly regulated for every case.
Improved Stability
The P12 Max features a closed fan wheel design. The advantage of this fan wheel combination is pressure stability without compromise. In scenarios with high pressure resistances and higher speeds, the force effect is distributed uniformly over the entire fan wheel and enables low-vibration rotation while maintaining high static pressure.
Maximum Smoothness, Minimum Vibration
Due to sinus-magnetizing, the new motor only creates about 5% of the vibration from the commutation of a regular DC motor without a filter. The rubber pads mounted at the corners additionally dampen the residual vibrations caused by the higher revolutions.
