·Size:120*120*38 mm.
·Material:Plastic+Aluminum.
·ColorRAL9005(Black).
Model | Rated Voltage |
Frequency |
SWFAN110V | 110~120 V | 50/60HZ |
SWFAN220V | 220~240 V | 50/60HZ |
The rack fan is a compact and efficient cooling solution designed for data centers and server racks. With advanced fan technology and intelligent temperature control, it ensures performance by automatically adjusting fan speed based on device temperatures. Its quiet design makes it suitable for office environments, while easy maintenance allows for quick disassembly and cleaning. The rack fan is essential for large-scale data centers, providing reliable cooling without occupying much space, and contributing to the stability and longevity of electronic equipment.
·Size:120*120*38 mm.
·Material:Plastic+Aluminum.
·ColorRAL9005(Black).
Model | Rated Voltage |
Frequency |
SWFAN110V | 110~120 V | 50/60HZ |
SWFAN220V | 220~240 V | 50/60HZ |
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READ MOREHow does this Fan of cooling system for network cabinet automatically adjust its speed according to the device temperature to ensure optimal performance of the equipment?
This Fan of cooling system for network cabinet can automatically adjust its speed according to the device temperature to ensure the best performance of the device, mainly through the following mechanisms:
Temperature sensors are installed inside the cabinet or near key equipment. These sensors can monitor the temperature changes of the device or environment in real time. The sensor feeds the monitored temperature data back to the fan control system in real time.
After receiving the temperature data, the fan control system will perform intelligent analysis and compare it with the preset temperature threshold. Based on the comparison between the temperature data and the threshold, the control system will decide whether to adjust the fan speed.
The fan control system changes the fan speed by adjusting the voltage, current or PWM signal supplied to the fan. By adjusting the duty cycle of the pulse signal, the average voltage of the fan is controlled, and then the speed is adjusted. This method has the advantages of high efficiency and low noise. Directly change the voltage or current supplied to the fan to achieve the purpose of speed regulation. However, this method may generate additional energy consumption and heat during the adjustment process. When the device temperature rises, the control system will automatically increase the fan speed to improve the heat dissipation efficiency; when the temperature drops to a certain level, the fan speed will be reduced to reduce energy consumption and noise.
The core of automatic fan speed adjustment is its ability to accurately respond to changes in the temperature inside the cabinet. Through the integrated high-precision temperature sensor network, the system can monitor the temperature changes in each key area in real time and quickly transmit the data to the intelligent control unit. This mechanism ensures that even when the equipment is running at high load or the external ambient temperature changes suddenly, the key equipment inside the cabinet can quickly get effective heat dissipation support, so as to maintain a stable and suitable operating temperature range. This not only prevents performance degradation or sudden failure caused by overheating, but also extends the service life of the equipment and reduces maintenance costs.
In addition to the intelligent speed regulation function, the cooling fan also adopts silent design technology, such as optimizing the shape of the fan blades and using low-noise bearings, to ensure that the noise level can be maintained at a low level even when running at high speed. Through reasonable structural design and manufacturing process control, the vibration problem during the operation of the fan is effectively suppressed, and the stability and comfort of use are improved.
This Fan of cooling system for network cabinet realizes the function of automatically adjusting the fan speed according to the equipment temperature through the combined effect of temperature sensor monitoring, intelligent control system processing, fan speed adjustment, and noise and vibration control mechanisms, thereby ensuring the best performance and stable operation of the equipment.