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EBM-PAPST Bare Axial Fan 250mm 2P 115w Induced FLOW

Item No. 130-A2E250-AL06-01
Ebm-Papst A2E250-AL06-01 Technical Features: Blades: Sheet steel coated in black Counter Clockwise looking at rotor side. Protection: IP44 Insulation: Class B Overload protection internally wired Capacitor: 3MFD Air flow direction: V Wiring diagram: A1 Max temperature: 65°C Airflow Direction:  A=For

Description

Ebm-Papst A2E250-AL06-01 Technical Features:
  • Blades: Sheet steel coated in black
  • Counter Clockwise looking at rotor side.
  • Protection: IP44
  • Insulation: Class B
  • Overload protection internally wired
  • Capacitor: 3MFD
  • Air flow direction: V
  • Wiring diagram: A1
  • Max temperature: 65°C
Airflow Direction:
 A=Forced
 V=Induced
 

Specifications

Airflow Direction
Sucking/ Induced
Blade Material
Steel
Blade Max Temp. (C )
65 deg C
Capacitor
Yes
Capacitor MFD value
3
Fan Blade Diameter (MM)
250 mm
Hz
50
Ingress Protection
IP44
Maximum Amps
0.51
Phase
1
Voltage
230
Description
EBM-PAPST Bare Axial Fan 250mm 2P 115w Induced FLOW

EBM-PAPST Bare Axial Fan 250mm 2P 115w Induced FLOW

Item No. 130-A2E250-AL06-01
Ebm-Papst A2E250-AL06-01 Technical Features: Blades: Sheet steel coated in black Counter Clockwise looking at rotor side. Protection: IP44 Insulation: Class B Overload protection internally wired Capacitor: 3MFD Air flow direction: V Wiring diagram: A1 Max temperature: 65°C Airflow Direction:  A=For

Specifications

Airflow Direction
Sucking/ Induced
Blade Material
Steel
Blade Max Temp. (C )
65 deg C
Capacitor
Yes
Capacitor MFD value
3
Fan Blade Diameter (MM)
250 mm
Hz
50
Ingress Protection
IP44
Maximum Amps
0.51
Phase
1
Voltage
230
Description
EBM-PAPST Bare Axial Fan 250mm 2P 115w Induced FLOW

Description

Ebm-Papst A2E250-AL06-01 Technical Features:
  • Blades: Sheet steel coated in black
  • Counter Clockwise looking at rotor side.
  • Protection: IP44
  • Insulation: Class B
  • Overload protection internally wired
  • Capacitor: 3MFD
  • Air flow direction: V
  • Wiring diagram: A1
  • Max temperature: 65°C
Airflow Direction:
 A=Forced
 V=Induced
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