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TTiC possesses the whole solution for light decay problem of high power LED lighting causing by overheating. Combine with the super-conductivity technique with unique heat-dissipating technology and force flow cooling system; TTiC’s products have achieved a very low system temperature. The temperature rising is only 0.08 ℃/W and for natural cooling system the temperature rising is controlled at 0.3℃/W. TTiC is able to put solid state lighting into 1,000W or above application effectively and safely. |
| 1. |
Possess numerous patents for thermal designs.
Natural cooling system: super-conductivity technique separate the heat, downward heat exchange structure, avoid the dust accumulation.
Force flow cooling system: highly reliable circulation fan driving the airflow, achieve super low thermal resistance at 0.08°C/W and over 50000hrs lifespan with controlled light decay.
Liquid cooling system: the separation of the light and heat dissipating mechanism, direct the heat to ambient preventing the heat trapped in the building.
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| 2. |
Modularized core design strengthens its competency and capable of mass production, identical production standard and low cost advantages. |
| 3. |
With TTiC Super-Conductivity thermal technology, TTiC’S LED lighting can be successive to 20,000 hours power-on with less than 10% light decay rate. |
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Downwards heat dissipation structure design will practically prevent side effect of long time dust/sand accumulation. |
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Maintain SGS Salt Spray test, IP67, Vibration Test, and successive 360 hours power-on with 50°C ambient temp, durability lifespan test. |
| 6. |
The patents have been proved in Taiwan, U.S.A., Japan and China. TTiC also has applied for PCT in 140 countries. |
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