Arctic Liquid Freezer II 420mm Liquid CPU Cooler, PWM Fans & PWM Controlled Pump
Multi Compatible All-In-One CPU Water Cooler
- Compatible with Intel & AMD sockets.
- In-House developed PWM controlled pump.
- High performance allows overclocking.
- Motherboard VRM cooling solution.
- Pressure optimised fan.
- Fully sleeved tubes.
- Integrated cable management.
- Maintenance-free water loop.
- Secure hold with backplate.
Using a wealth of experience gained from previous work on CPU water cooling, Arctic have returned with the Liquid Freezer II Series a multi-compatible high quality AIO cooler, featuring a custom designed completely new compact water cooling PWM pump and integrated cable management complete with sleeve tubing for a great clean aesthetic. The Liquid Freezer II 360, features 3x powerful 140mm Arctic P14 fans to give you outstanding heat transfer driven by high static pressure and outstanding performance making this all in one liquid water cooler perfect for hobbyists or enthusiasts that are looking for superior performance at lower noise levels.
Brand New PWM Controlled Pump Design
The Liquid Freezer II Series AIO coolers feature a newly developed PWM-controlled pump, boasting a copper base, improved efficiency, lower power usage and quiet operation. Unlike conventional pumps which continuously run at full load even under low demand, the Artic Freezer II series pump clocks down consuming less power and producing less noise if no cooling is needed, even with its additional fan for VRM cooling.
Triple Fan Cooling
The Liquid Freezer II 420 cooler feature the popular Arctic P12 fans, bringing with them the following advantages;
- High Static Pressure
- Broad RPM Range (200 - 1700RPM)
- High Quality Bearings
- Lower Power Consumption
- PWM for synchronous fan/pump control
- Extended Life Span
- Less Vibrations
Best in Class Radiator
Unlike conventional AIO radiators, Arctic have opted for a 38mm thick radiator with a high fin density allowing a higher volume of water to be used in the circuit and the cooling surface can be significantly increased.