Asetek Low Cost Liquid Cooling (LCLC) System

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Please refer to the previous page for an explanation of the methodology and test system used to produce the results found on this page.

Test Results
Thermal Performance





While the CPU is idle, all of our cooling configurations performed fairly well. The LCLC produced the best thermal performance, although just barely. The Silverstone NT-06 at its maximum RPM produced thermal performance nearly equal to the LCLC. The Intel stock cooler unsurprisingly came in last place, with nearly 4C higher temperature than the LCLC.

We see a similar situation during the Everest stress test, during which both CPU cores were maxed out at 100% utilization. The LCLC and Silverstone NT-06 at 2640RPM keep pace with each other and produce the best thermal result, at 45C. This is significantly better than the nearly 60C that the Intel stock cooler was able to achieve.

While 60C is hardly a dangerous temperature level for a Core 2 Duo, 45C is much better. At 45C, all systems should have perfect stability. The lower temperature achieved by the LCLC will also extend the life of the processor compared to the Intel stock cooler. During the Everest stress test, the GPU temperature rose from an idle temperature of 56.3C to an average of 58.6C. This is because the GPU block receives the heated exhaust water from the CPU block before it reaches the heat exchanger to be cooled.





While the system is idle, the LCLC was able to cool the GPU much better than the stock cooler. However, once the system was loaded with Call of Duty 4, both the stock cooler and the LCLC performed roughly on par. The main advantage of the LCLC over the stock cooler while under load is in acoustics. While under load, the stock cooler's fan increased speed and became louder and more noticeable. On the other hand, the LCLC's noise level was unaffected and remained very quiet.

Note that the LCLC has a greater thermal delta between idle and load than the stock cooler. This is because the stock cooler's fan speed is thermally controlled and increases in speed when the graphics card is under load. On the other hand, the LCLC's GPU block is cooled by the heat exchanger. The fan we used on the heat exchanger is not thermally controlled and remains at a constant speed. This means the stock cooler has greater cooling ability while under load, while the LCLC's cooling ability remains constant. Hence the higher thermal delta. This can be remedied with a thermally controlled heat exchanger fan.



With the LCLC installed, the graphics card's memory is cooled with its own heatsink and fan based cooler and is thermally separated from the water cooling system. Since the heatsink doesn't need to cool the GPU, which is taken care of by the water cooling system, the memory and voltage regulation circuitry receives all of its attention. This resulted in fairly good thermal performance. While idle, the LCLC cooled the graphics memory about 10C lower than the stock cooler. When the system was loaded with Call of Duty 4, graphics memory temperature increased significantly but remained well below the stock cooler.

The graphics cooling assembly fan is powered by the graphics card via a 4-pin connector. However, only 2 of the 4 pins are being used and the fan is not thermally controlled which means it stays at a constant speed. This helps explain the temperature delta difference between the LCLC and the stock cooler.

Acoustic Performance: We did not take detailed acoustic measurements for this review since the LCLC does not come with a fan for the heat exchanger, therefore the noise level of the system will depend on the fan used. However, the pump and graphics assembly fan both produce noise but they are extremely quiet. The noise level of both the pump and the graphics assembly fan were below the ambient noise floor of our test lab which means they are effectively 'silent'. We were not able to detect the sound of the pump or graphics assembly fan over the noise produced by the power supply fan, from 1 meter away. In comparison, the GeForce 8800 GTX stock cooler is clearly audible.

Throughout our tests we used a Scythe S-FLEX SFF21D 120mm fan to cool the LCLC's heat exchanger. In this configuration, the system was extremely quite, and the only noise we were able to detect from 1 meter came from the S-FLEX, power supply and hard drive (while seeking). We believe it would be possible to use an even quieter fan and still maintain respectable thermal performance, however a fan is necessary. Without a fan, CPU and GPU temperatures both rose beyond 80 degrees Celsius over a period of 10 minutes.

The Intel stock cooler's fan was much louder than the S-FLEX. The Silverstone NT-06 comes with a speed adjustable, extra-deep fan (35mm instead of the standard 25mm). At 750 RPM it is nearly silent and only slightly more audible than the S-FLEX. At the max speed of 2640 RPM, the Silverstone fan reaches mini-vacuum cleaner status, both in the volume of air being moved and noise level. The fact that the LCLC was able to outperform the Silverstone with a much smaller fan is testament to its superb cooling efficiency.


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no biggy wasnt sure if it was if the LCLC was used cpu and gpu at use a the same time ( nice temp for the price). sorry lol just the reply catch me off guard. the price make me tempted to try it out for my self tho. xD

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As stated in the article, You would have more than likely seen better results from a fan that pushes more air. Certain "rads" are design for lower air flow and some air design for higher air flow. With out knowing the spacing of the fins on this rad it is hard to say which fan would suite this best. Most rads are designed for high airflow. Another point is the fact that the pump is built into the water block. Pumps produce heat themselves and therefor shouldn't be built intot he waterblock as it will effect temps. I would say "as is" this product would be ideal for the HTPC market. It offers a low noise, low cost effective cooling solution. I say effective because it does the job but not for a enthusiast system. This is def not designed for high overclocking or volt modding. But as stated already those who tend to do that don't buy kits anyway. So I give it a thumbsup for what it is. A low cost, compact, inexpensive adequate cooling solution. there's my .02

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the thing on here that confuses me is this OK it's totally sealed right but liquid especially when used in a radiator type systems is going to evaporate or potherwise break down and dissipate over time since it is sealed that will take longer of course but will never the less happen sooner or later so how do you know when your liquid has broken down to the point that it's dangerous for whatever you have it cooling and then  what can you do buy a new one to replace the sealed yet insufficient unit

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