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Model Number AGA154U, 0.12 Cubic Feet Per Minute (ft³/min) Airflow (P) Micro Fan
List Price $16.96 ( Quantity Discount Available )


2.4V

Axially Grooved Bearing

0.12 CFM (0.003 m³/min)

Lead Wires: UL1571, 32 AWG, 60 mm

Operating Temperature: -10 ºC ~ +60 ºC

Operating life: 20,000 hours at 45 ºC

Locked Rotor, Auto Restart, and Polarity Protection

Frequency Generator (Tachometer) - optional

IP58 Dust and Moisture Protection

CE, RoHS Compliant




Specifications  · Dimensions  · Lead Wire  · Axial Air-Gap Cooling  · Applications  · Axial Air-Gap Technology Vs Traditional Fan Technology

Specifications

Brands
Pelonis Technologies

Type
Axial
Micro Fan

Direct Current (DC) Rated Voltage
2.4 V

Direct Current (DC) Operating Voltage Range
2.4~3.3 V

Rated Current
11 mA

Speed
7500 rpm

Airflow (P)
0.12 ft³/min
0.003 m³/min

Static Pressure (Q)
0.027 inH2O
0.69 mmAq

Noise
14.6 dBA

Operating Temperature
-10~+60 ºC

Operating Life at 45 Degree Celsius (ºC) Temperature
20,000 hours

Dust and Moisture Protection
Ingress Protection (IP58)

Weight
1.3 g

Industry Standards/Certifications
European Conformity (CE)
Restriction of Hazardous Substances (RoHS) Compliant


Dimensions

Length
15 mm
0.59 in

Width
15 mm
0.59 in

Height
4 mm
0.16 in


Lead Wire

Lead Wire Rating
Underwriters Laboratories (UL1571)

Lead Wire Thickness
32 AWG

Lead Wire Jacket Diameter
60 mm


Axial Air-Gap Cooling
Traditional fans and blowers include silicon steel motors with radial air-gaps. Miniaturization is difficult, operation is inefficient, and power loss is greater at higher temperatures.

By using specially grooved bearings with Axial Air-Gap Technology, AIR-G Series Micro Fans and Blowers are smaller and more energy efficient than traditional fans and blowers and have almost no power loss at higher temperatures.


Applications
AIR-G Series Micro Fans and Blowers operate without silicon steel stack motors and have axial air-gaps that are PARALLEL to their axis. This makes them ideal miniature cooling devices.

Axial Air-Gap Characteristics
  • Low Profile
  • Energy efficient (power savings 20%~40%)
  • No silicon steel stack (no current loss)
  • Lower start-up voltage ( < 2.5V)
  • No power loss at high temperatures
  • Highly modularized production process


Axial Air-Gap Technology Vs Traditional Fan Technology

Axial Air-Gap Technology
AIR-G Series Micro Fans and Blowers operate without silicon steel stack motors and have axial air-gaps that are PARALLEL to their axis. This makes them ideal miniature cooling devices.

Axial Air-Gap Characteristics
  • Low Profile
  • Energy efficient (power savings 20%~40%)
  • No silicon steel stack (no current loss)
  • Lower start-up voltage ( < 2.5V)
  • No power loss at high temperatures
  • Highly modularized production process

Traditional Fan Technology
Traditional fans and blowers have silicon steel stack motors with radial air-gaps that are PERPENDICULAR to their axis. This makes miniaturization difficult.

Traditional Fan Characteristics
  • High Profile
  • Limited energy efficiency
  • Current loss caused by silicon steel stack
  • Higher start-up voltage ( > 2.5V)
  • Ingress Protection: IP55
  • Higher power loss at high temperatures
  • Complex production process


 MORE IMAGES 

·  Traditional Fan Technology Vs Axial Air-Gap Technology

·  0.12 Cubic Feet Per Minute (ft³/min) Airflow (P) Micro Fan - Dimensional Drawing

·  0.12 Cubic Feet Per Minute (ft³/min) Airflow (P) Micro Fan - Airflow (P) Vs Pressure (Q) Graph



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