Phones & Tablets

Thermaltake Announced the New Engine 27 1U Low-Profile CPU Cooler

27 1U

Thermaltake new Engine 27 1U Low-Profile CPU Cooler, the latest air cooling solution for small form factor applications is now available on the market. The Engine 27 offers an excellent balance between performance, size and acoustics with the low-profile design, along with the most advanced thermal techniques. Unlike traditional CPU coolers, the Engine 27 is designed with 27mm height and a compact size 60mm fan that is the ideal choice for any slim systems. Moreover, with metallic (aluminum alloy) fan structure and the built-in PWM fan, the Engine 27 guarantees extremely low noise level without compromising on the cooling performance!
27 1U
“We at Thermaltake always believe that behind a good brand is a great product, and the better the product the better the brand. This is also the reason why we set our brand mission as delivering the perfect user experience. Although now we mainly focus on developing new liquid-cooling products, air cooler still play an important role in our product portfolio. Particularly, we applied the latest technology to develop the Engine 27 regardless of the compact fan design or the unique aluminum alloy made structure. We took every detail seriously to produce the best low-profile CPU cooler, eventually achieve our mission.” announced Kenny Lin, Thermaltake CEO and Chairman.

Features of the Thermaltake Engine 27 1U Low-Profile CPU Cooler:

Low-Profile 27mm Height
Designed with 27mm height, the Engine 27 is the ideal CPU cooling solution for slim and small form factor applications, such as 1U server, HTPC, AIO/PIO PC, POS terminal and Booksize/Mini PC.

Unique Metallic (Alumium Alloy) Structure with Superb Heat Dissipation
Unlike traditional CPU coolers, the Engine 27 features a metallic structure that provides more fortified and efficient thermal paths for CPU. The metallic fan is designed to directly pull heat from CPU. Especially, the metallic fan base is engineered with small radial gaps that allow heat to be transferred rapidly to the rotating metallic fan. Hence, when the metallic fan blades generate cooling airflow, heat will also be transferred to the flowing air by both rotating fan and stationary fan base at the same time.

Forty Fan Blade Design for Better Cooling Performance
To make a perfect balance between cooling performance and noise level, forty fan blades are engineered to generate large volume of air passing through the heat sink at any angle. Additionally, the metallic blade rotation will create a centrifugal force on ambient air. In the meanwhile, the centrifugal forces will expel hot air so that heat can easily be taken away from the fan blades. Most importantly, this cooling technique can reduce the blade’s noise and vibration because hot air expelled will create a vacuum, and then fresh cooling air will be drawn in the heatsink.

Radial Fin Arrangement
The Engine 27 is specially designed with metallic radial fins to accelerate the thermal transfer process. Especially, the radial arrangement with 129 fin design can minimize the gap between the fan and the fins, thus, hot air can be exhausted more rapidly and efficiently.

Built-In PWM Fan
The PWM function enables the motherboard to run the fan precisely at its necessary speed. This guarantees ultra-quiet noise level without compromising on the cooling performance.
Built-In PWM Fan
The PWM function enables the motherboard to run the fan precisely at its necessary speed. This guarantees ultra-quiet noise level without compromising on the cooling performance.
For more details on the Thermaltake Engine 27 1U Low-Profile CPU Cooler please visit:
http://www.thermaltake.com/products-model.aspx?id=C_00002957

Related posts

Leave a Comment

* By using this form you agree with the storage and handling of your data by this website.

This site uses Akismet to reduce spam. Learn how your comment data is processed.

This website uses cookies to improve your experience. We'll assume you're ok with this, but you can opt-out if you wish. Accept Read More