ARCTIC Freezer 7X processor cooler

ARCTIC Freezer 7X processor cooler_thumb_3

ARCTIC Freezer 7X processor cooler_thumb_4

ARCTIC Freezer 7X processor cooler_thumb_5

Article-No.:

138819

Manufacturer-No.:

ACFRE00085A

EAN/GTIN:

4895213702485

WEEE Nummer

DE61101640

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Technical specifications

General

Product Type

Processor cooler

Packaged Quantity

Heatsink & Fan

Fan Diameter

92 mm

Rotation Speed

300-2000 rpm

Compatible With

LGA775 Socket, LGA1200 Socket, LGA1156 Socket, Socket AM3, LGA1155 Socket, Socket AM3+, Socket FM1, Socket FM2, LGA1150 Socket, Socket FM2+, LGA1151 Socket, Socket AM4

Power Connector

4-pin fan connector

Fan Bearing

Dual ball bearing

Noise Level

0.3 Sone

Dimensions & Weight

Width

11 cm

Depth

7,4 cm

Height

13,3 cm

Weight

425 g

Dimensions & Weight (Shipping)

Shipping Width

11,3 cm

Shipping Depth

10,7 cm

Shipping Height

14,5 cm

Shipping Weight

514 g

Service & Support

Type

6-year warranty

Miscellaneous

Color Category

Black

Description

The Artic Freezer 7 X is a compact CPU cooler with one 92 mm fan. It is multi-compatible with common sockets. It benefits from an improved heatsink design and a reworked heat pipe layout. In conjunction with the fan, which is optimized for high static pressure, Artic has been able to significantly improve the cooling performance of Freezer 7X.

A worthy freezer 7 pro successor - better price - better performance
The ARCTIC Freezer 7 X CO is a compact CPU cooler with one 100 mm fan. It is multi-compatible with common Intel and AMD sockets. Due its dual ball bearing it is optimized for Continuous Operation. The Freezer 7 X CO benefits from an improved heatsink design and a reworked heat pipe layout. In conjunction with the fan, which is optimized for high static pressure, ARCTIC was been able to significantly improve the Freezer 7 X CO's cooling performance.
Pre-applied MX-4 thermal paste
Pre-applied, high-performing MX-4 thermal paste ensures quick and clean assembly.
More efficient and whisper quiet
In addition to operating more quietly, even at maximum speed, the Freezer 7 X CO built-in fan motor is also much more efficient. The power consumption was reduced from 0.25 A to 0.07 A, which corresponds to an effective savings of 72% in power consumption. ARCTIC engineers were also able to reduce the volume by 40%, allowing the Freezer 7 X CO to run at a whisper-quiet 0.3 sone when at maximum speed.
10% more cooling capacity with Freezer 7 X
The ARCTIC Freezer 7 X CO sets the standards in cooling. Compared to its predecessor, a performance increase of almost 10 % could be tested. The thermal resistance stands for the absolute performance of a CPU cooler by indicating the temperature increase per unit of performance. It also represents the cooling performance independent of the processor and is the more accurate alternative to a TDP specification.
Longer lifespan thanks to its low coil temperature
The Freezer 7 X CO uses a fan motor newly developed by ARCTIC. This runs less audibly and more efficiently, so that the temperature of the coils is 20°C lower than with conventional motors.
Offset heat pipes enable optimal heat dissipation
The direct touch heat pipes attached to the Freezer 7 X CO and an optimized design of the 44 cooling fins together ensure that the heat from the CPU can be ideally removed and released into the air.
P-fan for increased performance
Inspired by the P-series, the Freezer 7 X CO's fan benefits from all of the advantages of P-fans: high static pressure for increased cooling performance, broad rpm range, lower power consumption, less vibration, PWM for synchronous fan control.
Dual ball bearing for continuous operation
The premium quality dual ball bearing allows continuous operation 24/7 without the slightest compromise in performance. Dust and high temperature are affecting this bearing a lot less than generic sleeve or one ball bearings and thus make it the perfect choice when reliability is essential.
Direct touch heat pipes
The Freezer 7 X CO uses direct touch heatpipes. This ensures that the heat to be dissipated is transferred directly to the heatpipes without an additional material layer, and transported into the heatsink via the pipes.