BESTAR Micro Piezoelectric Cooling Silent Fan
| (Length + Tolerance) * (Width + Tolerance) | (15 ± 0.2 mm)*(11 ± 0.2 mm) |
| Thickness + Tolerance | 2 ± 0.05 mm |
| Drive Voltage | 50 VPP |
| Drive Waveform | Square wave |
| Drive Frequency | ≥ 20 kHz |
| Applicable Ambient Temperature | 25 ± 3°C |
| Maximum Air Volume (Lpm) @ 50VPP | (V1 Version ≥ 2 Lpm) (V2 Version ≥ 4 Lpm) |
| Static Pressure (0 ml/min) | ≥ 100 Pa |
Features:
● Excellent flow performance
● Quiet
● Vibration-free operation
● Ultra-fast millisecond response
● Lightweight and compact
● Extremely slim
Description
The Micro Piezoelectric Cooling Silent Fan is a novel thermal-management equipment which provides simple, noisy, and speedy cooling to small electronics. The ultra-thin fan utilizes highly piezoelectric actuation, thus achieving a high level of airflow, dissipation and without the vibration or mechanical noise, rendering it perfect in use where accommodating operations that require a steady and quiet level of cooling are required.
Micro Piezoelectric Cooling Silent Fan has a response time as fast as the milliseconds and as a result, can react to change the airflow immediately to suit the requirements of the system. It is small and very light, making it compatible with space limited devices including wearables, handheld electronics, sensors, and optical devices. The fan is effective in providing effective heat transfer to tight environments or low-profile structures, despite having a low profile despite the fact that it has a lower volume but remains effective with respect to air delivery to the area.
The fan has been designed keeping in consideration reliability and energy saving results and thus uses barely power and yet the results are long term stability. Its extremely slender body size accommodates the modern designs which focus on space, silence in use and conserving energy. The fan is found in precision instruments, communication modules or next-generation consumer electronics and hires performance, it offers engineers with low-noise, piezoelectric cooling a solution which is readily attentive to ambitious thermal criteria.
