Technical Document
Specifications
Brand
SunonSupply Voltage
12 V dc
Height
92mm
AC or DC Operation
DC
Power Consumption
2W
Width
92mm
Depth
25mm
Maximum Current
165mA
Termination Type
Lead Wire
Dimensions
92 x 92 x 25mm
Air Flow
87.5m³/h
Noise Level
34dB
Fan Speed
3000rpm
Direction of Curve
Forward
Bearing Type
Ball
Country of Origin
China
Product details
Sunon E Series Maglev DC Axial Fan, Ball Bearing
From Sunon, these E Series DC Axial fans employ MagLev to increase performance, service life and noise reduction. The magnetic levitation technology eliminates the need for contact between the shaft and bearing, ensuring zero friction. This technology also aids in rotational stability, which nullifies the problems of shake and vibration typical in traditional fan motors.
The E series improves on its predecessors by with its highly efficient construction process. Featuring a closed-loop design in its reservoir, for a long and dependable service life.
Features and Benefits
High quality construction
Reduced noise
Increased efficiency
Extended motor life
RoHS Compliant
Applications
E series MagLev fans can be used in most applications where traditional DC Axial Fans are used.
IT Systems
Medical equipment
Automotive
Industrial applications
Digital appliances
FAQ
Q: How are MagLev fans superior to traditional fan motors?
A: Fan reliability is a huge factor in application suitability, and MagLev technology ensures that the fan retains optimal performance over a longer period than traditional motors. For a quieter, efficient fan over a longer life span, MagLev fans are preferable.
Q: What are the advantages of ball bearing fans over sleeve bearing fans?
A: Ball bearing fans are typically less prone to wear and tear than sleeve bearing, which makes them ideal for a longer service life. They are also able to operate in higher temperatures, and in any orientation. However, they are less rugged and can be more easily disrupted by impact, and tend to be noisier than their sleeve bearing counterparts.
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€ 7.02
Each (Exc. VAT)
1
€ 7.02
Each (Exc. VAT)
1
Buy in bulk
Quantity | Unit price |
---|---|
1 - 4 | € 7.02 |
5 - 9 | € 6.46 |
10 - 24 | € 6.18 |
25 - 49 | € 6.01 |
50+ | € 5.85 |
Technical Document
Specifications
Brand
SunonSupply Voltage
12 V dc
Height
92mm
AC or DC Operation
DC
Power Consumption
2W
Width
92mm
Depth
25mm
Maximum Current
165mA
Termination Type
Lead Wire
Dimensions
92 x 92 x 25mm
Air Flow
87.5m³/h
Noise Level
34dB
Fan Speed
3000rpm
Direction of Curve
Forward
Bearing Type
Ball
Country of Origin
China
Product details
Sunon E Series Maglev DC Axial Fan, Ball Bearing
From Sunon, these E Series DC Axial fans employ MagLev to increase performance, service life and noise reduction. The magnetic levitation technology eliminates the need for contact between the shaft and bearing, ensuring zero friction. This technology also aids in rotational stability, which nullifies the problems of shake and vibration typical in traditional fan motors.
The E series improves on its predecessors by with its highly efficient construction process. Featuring a closed-loop design in its reservoir, for a long and dependable service life.
Features and Benefits
High quality construction
Reduced noise
Increased efficiency
Extended motor life
RoHS Compliant
Applications
E series MagLev fans can be used in most applications where traditional DC Axial Fans are used.
IT Systems
Medical equipment
Automotive
Industrial applications
Digital appliances
FAQ
Q: How are MagLev fans superior to traditional fan motors?
A: Fan reliability is a huge factor in application suitability, and MagLev technology ensures that the fan retains optimal performance over a longer period than traditional motors. For a quieter, efficient fan over a longer life span, MagLev fans are preferable.
Q: What are the advantages of ball bearing fans over sleeve bearing fans?
A: Ball bearing fans are typically less prone to wear and tear than sleeve bearing, which makes them ideal for a longer service life. They are also able to operate in higher temperatures, and in any orientation. However, they are less rugged and can be more easily disrupted by impact, and tend to be noisier than their sleeve bearing counterparts.