ARCTIC Freezer 7 X vícekompatibilní CPU chladič, Socket Intel 115x/1200/755 & AMD FM1, FM1+, FM2, FM2+, AM3, AM3+, AM4
ARCTIC Freezer 7 X vícekompatibilní CPU chladič, Socket Intel 115x/1200/755 & AMD FM1, FM1+, FM2, FM2+, AM3, AM3+, AM4
PN: ACFRE00077A
ARCTIC Freezer 7 X vícekompatibilní CPU chladič, Socket Intel 115x/1200/755 & AMD FM1, FM1+, FM2, FM2+, AM3, AM3+, AM4
Super tichý chladič pro téměř jakýkoliv procesor, za nepřekonatelnou cenu – to je novinka v podobě chladiče Freezer 7 X, který je přímým nástupcem legendárnícho Freezer 7 Pro. O kvalitní chlazení se stará 92mm ventilátor, který žene vzduch přes hliníkový radiátor se 44 žebry. Velkou výhodou je i široká podpora procesorových patic Intel a AMD a již od výrobce předinstalovaná teplovodivá pasta Arctic MX-2.
Kompatibilní se sloty Intel® a AMD®
• Předem nanesená tepelná pasta MX-2
• Prodloužená životnost díky nízké teplotě cívky
• Nižší spotřeba energie a menší vibrace díky nové technologie motoru
• Ofsetová tepelná potrubí zajišťují optimální odvod tepla
Kompatiblní s AMD® FM1/2(+), AM3(+), AM4 a Intel® 115x, 1200, 775
Ventilátor: 92 mm
Hlučnost: 0.3 sonu (při maximálním výkonu)
Počet Heat-pipe trubiček: 2 (z každé strany)
Tloušťka Heat-pipe: 6mm
Rychlost otáček: 300 – 2 000 ot./min (řízeno PWM)
Typ ložiska: Fluid Dynamic
Konektor: 4-pin
Hmotnost: 425 g
Rozměry: 74,3 x 110,5 x 132,5mm
Kompatibilní se sockety:
Intel 115x, 1200, 755
AMD FM1, FM1+, FM2, FM2+, AM3, AM3+, AM4
Freezer 7 X
Compact Multi-Compatible CPU Cooler
Compatible with Intel® & AMD® sockets
• Pre-applied MX-2 thermal paste
• Extended lifespan thanks to low coil temperature
• Lower power consumption and less vibration with
new motor technology
• Offset heat pipes ensure optimal heat dissipation
A worthy Freezer 7 Pro successor:
better price, better performance
The Freezer 7 X benefits from an improved heatsink design and a
reworked heat pipe layout. In conjunction with the fan, which is
optimized for high static pressure, we have been able to significantly
improve the Freezer 7 X's cooling performance. Optimized
and more effective manufacturing processes also allow us to offer
it at a better MSRP.
Specifications
Heat Pipe Direct Touch Ř 6 mm x 2
Heatsink Aluminium Fins x 44 Thickness: 0.4 mm
Thermal Compound MX-2 pre-applied
Dimensions 74.3 (L) x 110.5 (W) x 132.5 (H) mm
Weight 425 g
Compatibility AMD® FM1/2(+), AM3(+), AM4 Intel® 115x, 1200, 775
RAM Clearance no limit
Fan 1 x 92 mm, 300–2000 RPM (Controlled by PWM)
Current/Voltage 0.07 A/12 V
Bearings Fluid Dynamic Bearing
Noise Level 0.3 Sone
Connector 4-pin connector
Compatible with Intel & AMD sockets
The Freezer 7 X is compatible with all current desktop sockets
from Intel and AMD. By using the mounting frame, simple installation
is possible without a need to remove the mainboard.
Pre-applied MX-2 thermal paste
Pre-applied, high-performing MX-2 thermal paste ensures
quick and clean assembly.
Longer lifespan thanks to its low coil temperature
In theory, reducing the coil temperature by 10 °C can double the
service life. With the use of new ARCTIC fan motors, we were
able to lower the temperature by 20 °C, which quadrupled the
lifespan of the fans.
Offset heat pipes enable optimal heat dissipation
The direct-touch heat pipes attached to the Freezer 7 X 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’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
Hydrodynamic plain bearing
Thanks to a combination of alloy and lubricant developed in
Germany, the friction within the bearing is reduced, leading to
greater efficiency. In this way, less heat is generated, there is
less bearing noise and the life of the fan is extended.
Direct Touch Heatpipes
The Freezer 7 X 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.