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Today's high technology industries require cooling products that are increasingly smaller, lightweight, have low power consumption, and reduce high heat generation.

AIR-G Series Micro Fans and Blowers are ideal thermal cooling solutions for applications that have limited space with restricted power budgets. They are energy efficient, manage heat generation effectively, and have a long operating life.

AIR-G Series Micro Fans and Blowers are ideal alternatives to traditional fans and blowers and can be customized to satisfy applications that require an effective miniature cooling solution.
  • Axially Grooved Bearing
  • Locked Rotor, Auto Restart, & Polarity Protection
  • Frequency Generator (Tachometer) - optional
Micro Fans and Micro Blowers
Unit of Measure
Items 0.16 Cubic Feet Per Minute (ft³/min) Airflow (P) Micro Fan
AGA135
0.16 Cubic Feet Per Minute (ft³/min) Airflow (P) Micro Fan
List Price QUOTE
0.12 Cubic Feet Per Minute (ft³/min) Airflow (P) Micro Fan
AGA154
0.30 Cubic Feet Per Minute (ft³/min) Airflow (P) Micro Fan
List Price $16.96
0.12 Cubic Feet Per Minute (ft³/min) Airflow (P) Micro Fan
AGA154U
0.12 Cubic Feet Per Minute (ft³/min) Airflow (P) Micro Fan
List Price $16.96
0.67 Cubic Feet Per Minute (ft³/min) Airflow (P) Micro Fan
AGA178
0.67 Cubic Feet Per Minute (ft³/min) Airflow (P) Micro Fan
List Price $16.96
0.65 Cubic Feet Per Minute (ft³/min) Airflow (P) Micro Fan
AGA184
0.65 Cubic Feet Per Minute (ft³/min) Airflow (P) Micro Fan
List Price $16.96
Description N/A 3.0 V~3.3 V

Axially Grooved Bearing

0.15~0.16 CFM (0.004~0.005 m³/min)

Lead Wires: UL10064, 32 AWG, 55 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
N/A 3.3 V~5.0 V

Axially Grooved Bearing

0.30~0.40 CFM (0.009~0.011 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
N/A 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
N/A 3.3 V~5.0 V

Axially Grooved Bearing

0.67~0.95 CFM (0.019~0.027 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
N/A 3.3 V~5.0 V

Axially Grooved Bearing

0.65~0.90 CFM (0.018~0.026 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
Brands N/A Pelonis Technologies
Type N/A Axial Micro Fan
Diameter N/A
Length N/A 13 mm0.51 in N/A 15 mm0.59 in N/A 15 mm0.59 in N/A 17 mm0.67 in N/A 18 mm0.70 in
Width N/A 13 mm0.51 in N/A 15 mm0.59 in N/A 15 mm0.59 in N/A 17 mm0.67 in N/A 18 mm0.70 in
Height N/A 5 mm0.20 in N/A 4 mm0.16 in N/A 4 mm0.16 in N/A 8 mm0.31 in N/A 4 mm0.16 in
Direct Current (DC) Rated Voltage N/A 3.0~3.3 V N/A 3.3~5.0 V N/A 2.4 V N/A 3.3~5.0 V N/A 3.3~5.0 V
Direct Current (DC) Operating Voltage Range N/A 2.5~3.6 V N/A 2.8~3.6 Volt (V) at 3.3 Volt (V) Voltage 4.5~5.5 Volt (V) at 5.0 Volt (V) Voltage N/A 2.4~3.3 V N/A 2.8~5.5 V N/A 2.8~3.6 Volt (V) at 3.3 Volt (V) Voltage 4.5~5.5 Volt (V) at 5.0 Volt (V) Voltage
Rated Current N/A 32 Milliampere (mA) at 3.0 Volt (V) Voltage 34 Milliampere (mA) at 3.3 Volt (V) Voltage N/A 30 Milliampere (mA) at 3.3 Volt (V) Voltage 42 Milliampere (mA) at 5.0 Volt (V) Voltage N/A 11 mA N/A 55 Milliampere (mA) at 3.3 Volt (V) Voltage 85 Milliampere (mA) at 5.0 Volt (V) Voltage N/A 32 Milliampere (mA) at 3.3 Volt (V) Voltage 45 Milliampere (mA) at 5.0 Volt (V) Voltage
Speed N/A 15000 rpm at 3.0 V 16000 rpm at 3.3 V N/A 10000 rpm at 3.3 V 16000 rpm at 5.0 V N/A 7500 rpm N/A 12000 rpm at 3.3 V 16000 rpm at 5.0 V N/A 13000 rpm at 5.0 V 8500 rpm at 3.3 V
Airflow (P) N/A 0.004 Cubic Meter Per Minute (m³/min) at 3.0 Volt (V) Voltage 0.005 Cubic Meter Per Minute (m³/min) at 3.3 Volt (V) Voltage 0.15 Cubic Foot Per Minute (ft³/min) at 3.0 Volt (V) Voltage 0.16 Cubic Foot Per Minute (ft³/min) at 3.3 Volt (V) Voltage N/A 0.009 Cubic Meter Per Minute (m³/min) at 3.3 Volt (V) Voltage 0.011 Cubic Meter Per Minute (m³/min) at 5.0 Volt (V) Voltage 0.3 Cubic Foot Per Minute (ft³/min) at 3.3 Volt (V) Voltage 0.4 Cubic Foot Per Minute (ft³/min) at 5.0 Volt (V) Voltage N/A 0.12 ft³/min0.003 m³/min N/A 0.019 Cubic Meter Per Minute (m³/min) at 3.3 Volt (V) Voltage 0.027 Cubic Meter Per Minute (m³/min) at 5.0 Volt (V) Voltage 0.67 Cubic Foot Per Minute (ft³/min) at 3.3 Volt (V) Voltage 0.95 Cubic Foot Per Minute (ft³/min) at 5.0 Volt (V) Voltage N/A 0.018 Cubic Meter Per Minute (m³/min) at 3.3 Volt (V) Voltage 0.026 Cubic Meter Per Minute (m³/min) at 5.0 Volt (V) Voltage 0.65 Cubic Foot Per Minute (ft³/min) at 3.3 Volt (V) Voltage 0.9 Cubic Foot Per Minute (ft³/min) at 5.0 Volt (V) Voltage
Static Pressure (Q) N/A 0.067 Inches of Water (inH2O) at 3.0 Volt (V) Voltage 0.078 Inches of Water (inH2O) at 3.3 Volt (V) Voltage 1.7 Millimetres of Aqua (mmAq) at 3.0 Volt (V) Voltage 1.98 Millimetres of Aqua (mmAq) at 3.3 Volt (V) Voltage N/A 0.059 Inches of Water (inH2O) at 3.3 Volt (V) Voltage 0.11 Inches of Water (inH2O) at 5.0 Volt (V) Voltage 1.5 Millimetres of Aqua (mmAq) at 3.3 Volt (V) Voltage 2.8 Millimetres of Aqua (mmAq) at 5.0 Volt (V) Voltage N/A 0.027 inH2O0.69 mmAq N/A 0.134 Inches of Water (inH2O) at 3.3 Volt (V) Voltage 0.27 Inches of Water (inH2O) at 5.0 Volt (V) Voltage 3.42 Millimetres of Aqua (mmAq) at 3.3 Volt (V) Voltage 6.86 Millimetres of Aqua (mmAq) at 5.0 Volt (V) Voltage N/A 0.077 Inches of Water (inH2O) at 3.3 Volt (V) Voltage 0.138 Inches of Water (inH2O) at 5.0 Volt (V) Voltage 1.95 Millimetres of Aqua (mmAq) at 3.3 Volt (V) Voltage 3.5 Millimetres of Aqua (mmAq) at 5.0 Volt (V) Voltage
Noise N/A 15.2 Decibel (dBA) at 3.0 Volt (V) Voltage 15.7 Decibel (dBA) at 3.3 Volt (V) Voltage N/A < 35.0 Decibel (dBA) at 5.0 Volt (V) Voltage 25 Decibel (dBA) at 3.3 Volt (V) Voltage N/A 14.6 dBA N/A 12 Decibel (dBA) at 3.3 Volt (V) Voltage 18 Decibel (dBA) at 5.0 Volt (V) Voltage N/A < 35.0 Decibel (dBA) at 5.0 Volt (V) Voltage 25 Decibel (dBA) at 3.3 Volt (V) Voltage
Lead Wire Rating N/A Underwriters Laboratories (UL10064) N/A Underwriters Laboratories (UL1571) N/A Underwriters Laboratories (UL1571) N/A Underwriters Laboratories (UL1571) N/A Underwriters Laboratories (UL1571)
Lead Wire Thickness N/A 32 AWG
Lead Wire Jacket Diameter N/A 55 mm N/A 60 mm N/A 60 mm N/A 60 mm N/A 60 mm
Operating Temperature N/A -10~+60 ºC
Operating Life at 45 Degree Celsius (ºC) Temperature N/A 20,000 hours
Dust and Moisture Protection N/A Ingress Protection (IP58)
Weight N/A 1.1 g N/A 1.5 g N/A 1.3 g N/A 2.2 g N/A 1.7 g
Industry Standards/Certifications N/A European Conformity (CE) Restriction of Hazardous Substances (RoHS) Compliant
Axial Air-Gap Cooling N/A 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.
N/A 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.
N/A 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.
N/A 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.
N/A 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 N/A Portable Medical Devices
Portable Computers and Electronics
Light-Emitting Diodes (LED) Lighting
Smartbooks and Tablets
Portable Hard Disk Drive (HDD)
Internet Protocol (IP) Cameras
High-Speed Memory Modules
Closed-Circuit Television (CCTV) Security Surveillance Systems
Pocket Projectors
Micro Fuel Cells
Global Positioning System (GPS) Devices
Portable Gas/Particle Detectors
Portable Plasma Generators
Portable Air-Quality Monitoring Devices
Ventilation and Defrosting
Mask/helmet/glass Ventilation
Solar and Wind Energy Devices
Fifth-Generation (5G) Communication Equipment
N/A Portable Medical Devices
Portable Computers and Electronics
Light-Emitting Diodes (LED) Lighting
Smartbooks and Tablets
Portable Hard Disk Drive (HDD)
Internet Protocol (IP) Cameras
High-Speed Memory Modules
Closed-Circuit Television (CCTV) Security Surveillance Systems
Pocket Projectors
Micro Fuel Cells
Global Positioning System (GPS) Devices
Portable Gas/Particle Detectors
Portable Plasma Generators
Portable Air-Quality Monitoring Devices
Ventilation and Defrosting
Mask/helmet/glass Ventilation
Solar and Wind Energy Devices
Fifth-Generation (5G) Communication Equipment
N/A 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
N/A Portable Medical Devices
Portable Computers and Electronics
Light-Emitting Diodes (LED) Lighting
Smartbooks and Tablets
Portable Hard Disk Drive (HDD)
Internet Protocol (IP) Cameras
High-Speed Memory Modules
Closed-Circuit Television (CCTV) Security Surveillance Systems
Pocket Projectors
Micro Fuel Cells
Global Positioning System (GPS) Devices
Portable Gas/Particle Detectors
Portable Plasma Generators
Portable Air-Quality Monitoring Devices
Ventilation and Defrosting
Mask/helmet/glass Ventilation
Solar and Wind Energy Devices
Fifth-Generation (5G) Communication Equipment
N/A Portable Medical Devices
Portable Computers and Electronics
Light-Emitting Diodes (LED) Lighting
Smartbooks and Tablets
Portable Hard Disk Drive (HDD)
Internet Protocol (IP) Cameras
High-Speed Memory Modules
Closed-Circuit Television (CCTV) Security Surveillance Systems
Pocket Projectors
Micro Fuel Cells
Global Positioning System (GPS) Devices
Portable Gas/Particle Detectors
Portable Plasma Generators
Portable Air-Quality Monitoring Devices
Ventilation and Defrosting
Mask/helmet/glass Ventilation
Solar and Wind Energy Devices
Fifth-Generation (5G) Communication Equipment
Axial Air-Gap Technology N/A 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
N/A 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
N/A 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
N/A 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
N/A 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 N/A 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
N/A 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
N/A 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
N/A 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
N/A 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