VPP655 PWM Watercooling pump including Eisdecke D5 Acetal Pump V.3 top from Alphacool
For years now this top is already a measure for all! Again and again, small improvements have been made. The second major update differs both, visually and technically in a few details.
The principle: On the bottom there is space for the Laing D5 or VPP655 pump and in the front or on top the inlet and outlet.
For even more flexibility, the Eisdecke gets three inlets and two outlets. Another feature is the new holder to give the entire unit a stable footing and complete the overall visual image. Optional installation in 3.5 "drive bay is possible.
The top can be converted by using the suplementary element, whitch is given as an accessory, to an complete reservoir which has also been revised.
• Dimensions (LxWxH): 80 x 80 x 40mm
• Dimensions with stands: 83 x 80 x 87mm
• Material: Acetal
• Threads: 5x ¼“
Alphacool's new power pump series, exceptional performance at an unbeatable price. The 12V pumps can simply be connected directly to the system PSU and the pump will start with your PC for maximum convenience and safety.
This pump is ideal for PC and other electronics water cooling. The DC pump is equipped with an electronically commutated spherical motor. In a pump with a spherical motor the only moving part is a spherically shaped rotor which in this pump is held in place by a bearing ball made of ultra-hard and wear-resistant ceramic. The spherical bearing of the rotor offers many advantages: For example an increase of bearing play is impossible due to the design, allowing the pump to run quietly and smoothly over its whole lifespan. A separate magnetic shielding of the pump is not needed.
The ball motor design allows efficient operation of the pump in combination with excellent performance. The pump can simply be connected to a 12V Molex connector of the system PSU.
The special feature of this model is the fact that only the pump core itself is shipped. Why pay more for all the things you won't need when using this pump with a third-party pump top?
Please note: Pump control possible with Heatmaster!
Note: For pump control via the Heatmaster the Alphacool pump adaptor cable (Item No. 25066) is required!
• Dimensions (WxHxD): 65x65x57mm (without connectors)
• Motor: Electronically commuted spherical motor
• Rated voltage: 12V DC
• Power consumption: 23W
• Permitted voltage range: 8-24V DC
• Pressure head at 12V: 3,7m
• Maximum flow: 1500l/h
• Pumped media: Water, water/glycol mixtures
• Maximum system temperature: 60°C
• Materials: Stainless steel 1.4571, PPS-GF40, EPDM O-rings, Aluminium oxide, hard coal
• Power connector: 4 Pin Molex Features Technical details:
• Approved fluids: Water, Water/ glycol mixture
• Color: Black
• Dimensions: 95 x 45 x 80mm
• Manufacturer: Alphacool
• Material: Ceramic, Plastic
• Max. Discharge head: 3,7m, Good (2 to 4m)
• Max. Flow: 1500l/h, Extreme (more than 1400l/h)
• Max. System temperature: 60° C
• Others: Incl. Plexi coupling
• Possible control range: 8-24V DC
• Power connector: 4Pin Molex
• Power input: 23W
• Voltage: 12V DC
• Water inlet: G1/4" inner thread
• Water outlet: G1/4" inner thread
Please note your statutory rights are not affected.
For further information regarding Scan's warranty procedure please see our terms and conditions
- 24 months
- Return to base
- DOA Period:
- 28 days
- RTB Period:
- 24 months
Date Issued: 20th Oct 2008
This TekSpek explains why you’d want to overclock your graphics board, the risks in doing so and how you can go about doing it.
Date Issued: 19th Jun 2008
Watercooling for the PC has been around for years in some form or another, for at least as long as Scan have been in business, with basic physics defining why you want to use it. That means for air cooling, to cope with increasing temperature in the heatsink you need to move the air across it faster. That is why thermostatically controlled fans in your PC will turn faster the hotter something gets.
Date Issued: 5th Mar 2007
Anybody who has been near their share of computer systems will appreciate that not all systems make the same amount of noise. There are a number of reasons for why this is so. Firstly, a computer makes noise for different reasons. Generally, anything mechanical is going to make noise.