Advantages of Semiconductor Chip Liquid Cooling Technology

Advantages of Semiconductor Chip Liquid Cooling Technology

Liquid cooling is to use liquid instead of air to take away the heat generated by IT heating devices such as CPU and memory, just like cooling the server locally. According to the progress of current technical research, liquid cooling is classified into water cooling and refrigerant cooling. Available refrigerants include water, mineral oil, electronic fluorinated fluid, etc.

Liquid cooling has the advantages of low energy consumption, high heat dissipation, and low noise. The cooling capacity of liquid is 1000-3000 times that of air. Liquid cooling technology can achieve the advantages of high density, low noise, low heat transfer temperature difference, and universal natural cooling. Compared with air cooling technology, it has incomparable technical advantages. An excellent cooling solution for scenarios such as deployment density.

(1) Low energy consumption

Short heat transfer path: Cryogenic liquid is directly supplied to communication equipment by CDU (cooling distribution unit);

High heat exchange efficiency: liquid-to-liquid heat exchange is realized through a heat exchanger between the primary side and the secondary side of the liquid cooling system. Combined with three forms of air-liquid heat exchange, liquid-liquid heat exchange, and evaporation-vaporization heat exchange, it has a better heat exchange effect.

High refrigeration energy efficiency: liquid cooling technology can realize high temperature liquid supply at 40~55℃, no compressor chiller is needed, outdoor cooling tower is adopted, which can realize natural cooling throughout the year; in addition to reducing the energy consumption of the refrigeration system itself, liquid cooling heat dissipation technology is adopted It is conducive to further reducing the chip temperature. The lower chip temperature brings higher reliability and lower energy consumption. The energy consumption of the whole machine is expected to be reduced by about 5%.

(2) High heat dissipation

Commonly used media for liquid cooling systems include deionized water, alcohol-based solutions, fluorocarbon working fluids, mineral oil or silicone oil, etc.; the heat carrying capacity, thermal conductivity and enhanced convective heat transfer coefficient of these liquids are much greater than that of air. Therefore, for a single chip, liquid cooling has a higher heat dissipation capability than air cooling. At the same time, liquid cooling directly takes away most of the heat of the equipment through the circulating medium; the overall air supply requirements of the single board, the entire cabinet, and the computer room are greatly reduced, allowing the deployment of high power density equipment; at the same time, more ICT equipment can be arranged in a unit space , Improve data center space utilization and save land area.

(3) Low noise

The liquid cooling heat dissipation technology utilizes the pump to drive the cooling medium to circulate and dissipate heat in the system to solve the heat dissipation problem of all heating devices or key high-power devices; it can cool the fan speed or adopt a fanless design, so it has excellent noise reduction effect and improves The operation and maintenance environment of the computer room is comfortable, and the problem of noise pollution is solved.

Enfriadoras a medida                                                                                                                  

Refrigeradores de baja temperatura (Diseños a medida)

Estamos especializados en la producción de refrigeradores de baja temperatura con un rango de control de temperatura de hasta -150°C, que pueden satisfacer las necesidades de refrigeración de diferentes industrias.

Enfriadoras de recirculación (Diseños a medida)

Nuestro enfriador de recirculación adopta tecnología de refrigeración de baja temperatura, la temperatura es tan baja como -120℃, y varios accesorios son personalizables.

Refrigeradores de temperatura ambiente / Refrigeradores pequeños (Diseños a medida)

El enfriador puede utilizarse ampliamente en diversas industrias y laboratorios, y admite diseños personalizados.

Chillers for Automotive Battery Test (Diseños a medida)

Simulación de temperatura para pruebas de calidad de vehículos: prueba de duración de baterías, banco de pruebas de inyectores/motores de combustible, prueba de airbags, banco de pruebas de componentes, etc.

La temperatura, la presión y el caudal pueden controlarse de forma independiente.

1&2: una máquina para el control de dos grupos.

La temperatura permanece constante, la presión y el caudal pueden controlarse independientemente.

1&3: una máquina para el control de tres grupos.

1&6: una máquina para el control de seis grupos.

Semiconductor Enfriadoras (TES series) (Diseños a medida)

Adecuado para el control preciso de la temperatura de los componentes electrónicos. En la fabricación de componentes electrónicos semiconductores para entornos adversos, las fases de ensamblaje de embalajes de CI y de pruebas de ingeniería y producción incluyen pruebas térmicas electrónicas y otras simulaciones de pruebas ambientales.

Semiconductor Enfriadoras (LTS series) (Diseños a medida)

Adecuado para el control preciso de la temperatura de los componentes electrónicos. En la fabricación de componentes electrónicos semiconductores para entornos adversos, las fases de ensamblaje de embalajes de CI y de pruebas de ingeniería y producción incluyen pruebas térmicas electrónicas y otras simulaciones de pruebas ambientales.

Enfriadoras para almacenamiento de energía(Diseños a medida)

Liquid Cooling Solutions For Battery Energy Storage Systems

Refrigeradores de tornillo (Diseños a medida)

Refrigeradores de tornillo de baja temperatura y refrigeradores de tornillo a temperatura ambiente