Cryorig R1 UNIVERSAL


  • Product Code: CR-R1B
  • Availability: In Stock
  • Rp.1,310,000

  • Ex Tax: Rp.1,310,000

Test

SPECIFICATION


•HEATSINK SPECIFICATION

Dimension ( with fan ): L128.5 mm x W140 mm x H168.3 mm

Weight ( with fan ): 1215 g

Weight ( without fan ): 970 g

Heat pipes: 6mm heatpipe x 7 units

Front Fin: T = 0.4 mm ; Gap = 2.4 mm

Front Fin Pcs: 42 pcs

Rear Fin: T = 0.4 mm ; Gap = 1.8 mm

Rear Fin Pcs: 53 pcs

Copper Base: C1100 Pure copper nickel plated

Distance From Center: 35.5 mm

RAM Height Limit: Limitless

TDP: 240 W+



•XF140 SPECIFICATION

Dimension: L140 mm x W140 mm x H25.4 mm

Weight: 156 g

Rated Speed: 700 ~ 1300 RPM ±10 %

Noise Level: 19 ~ 23 dBA

Air Flow: 76 CFM

Air Pressure: 1.44 mmH2O

Ampere: 0.16 A


•XT140 SPECIFICATION

Dimension: L140 mm x W140 mm x H13 mm

Weight: 89 g

Rated Speed: 700 ~ 1300 RPM ±10 %

Noise Level: 20 ~ 24 dBA

Air Flow: 65 CFM

Air Pressure: 1.49 mmH2O

Ampere: 0.27 A


•Feature

Full Contact

Enhanced Performance

Patented DirectCompress™ Soldering, increases the actual contact surface between the heatpipe and heatsink fins. DirectCompress™ Soldering has up to 10% more contact surface compared to traditional soldering, and the more contact surface the faster the heat conduction.

Spreading Out

and Making Room

On aluminum sheets, heat spreads out in a radial direction. By displacing the heatpipe alignment on the heatsink fins, our Heatsink Displacement Optimization™ allows for better and more evenly spread heat conduction on the fins compared to traditional linear alignment.

Accelerated Air Exhaust


•Spreading Out

and Making Room

On aluminum sheets, heat spreads out in a radial direction. By displacing the heatpipe alignment on the heatsink fins, our Heatsink Displacement Optimization™ allows for better and more evenly spread heat conduction on the fins compared to traditional linear alignment.


•Accelerated Air Exhaust

The Faster the Cooler

The individual tower stack is separated into two sections, the loose air intake and the high density exhaust section. By the laws of fluid dynamics, the increase in fin count in the exhaust section squeezes airflow and increases exhaust air speed. The increase of airflow speed in our Jet Fin Acceleration System™ allows heated air leave the tower faster.

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Tags: Heatsink, Heatsink fan, Heatsink fan Cryorig