The latest in laptop cooling technology
The latest developments in laptop cooling technology are based on liquid cooling systems which are thermally more efficient than regular air-based systems. In the past, liquid cooling was not a practical option for laptops because there wasn’t enough room to house such equipment.
In the past, desktop computers were considered better for intensive use than laptops due to better cooling solutions. However, with the latest new developments in laptop cooling technology, this situation is changing. Laptops are notoriously hard to cool because they are designed to be as thin as possible with very little room for anything but crucial components.
The most common cooling systems involve individual heat pipes and heat sinks to cool components separately. This style of cooling works well for basic computing tasks, but can be insufficient for intensive use.
The latest developments in laptop cooling technology are based on liquid cooling systems which are thermally more efficient than regular air-based systems. In the past, liquid cooling was not a practical option for laptops because there wasn’t enough room to house such equipment.
Asetek is developing slim form factor liquid cooling technology that will work in laptops and all-in-one PCs. This design uses the greater thermal mass of the liquid to eliminate heat spikes and extract heat. This type of system can help minimize the risk of overheating and enable intensive use.
The most common cooling systems involve individual heat pipes and heat sinks to cool components separately. This style of cooling works well for basic computing tasks, but can be insufficient for intensive use.
The latest developments in laptop cooling technology are based on liquid cooling systems which are thermally more efficient than regular air-based systems. In the past, liquid cooling was not a practical option for laptops because there wasn’t enough room to house such equipment.
Asetek is developing slim form factor liquid cooling technology that will work in laptops and all-in-one PCs. This design uses the greater thermal mass of the liquid to eliminate heat spikes and extract heat. This type of system can help minimize the risk of overheating and enable intensive use.