Fan Filter Units

Fan filter units are flexible and economic solutions to remove particles from the recirculated air of turbulent or unidirectional ventilated cleanrooms.

Fan filter units are stand-alone units with integrated HEPA-filter, fan and control system. They supply purified air to cleanrooms and laboratories within the life-science, food-and beverage and microelectronic industries by removing harmful airborne particles from recirculating air. Unlike pressurized cleanroom ceiling plenums, FFUs create a positive room pressure that reduces the contamination risk from potential ceiling bypasses.

CAMFFU

The Camfil fan filter unit, CamFFU, contains our premium pre- and hepa filters, integrated fan and control system. Low sound power level, the patended acoustic insulation system, low energy consumption thanks to high efficiency EC motors, the very easy filter replacement from room-side thanks to the locking bar system and the quick and easy auto installation with the handheld controller are some of the many benefits with the CamFFU. The CamFFU range consists of three solutions:

CamFFU high performance HP-EC
is the recommended solution for unidirectional and turbulent air distribution, suitable for cleanroom class ISO 1 to ISO 8.

CamFFU Integrated solution
is the recommended solution for both unidirectional and turbulent air distribution, suitable for cleanroom class ISO 3 to ISO 8.

CamFFU compact solution
is the solution where there is low space above the false ceiling

CAMFFU INTEGRATED SOLUTION

ADVANTAGES

  • Very rigid construction
  • EC Fan with high reserve capacity for pre- and AMC filtration
  • Individual control
  • Low power consumption

Application
Units can be screwed together to form individual cleanroom ceilings e.g. for machine enclosures, clean work cabins or minienvironments from ISO 14644 class 8.0 to ISO 1.0.

Product voltage: (V) 200…240V
Type: Fan filter unit
Temperature max 0 – 40ºC
Installation Options: System can span up to 4800 mm x 4800 mm or supported by pedestals

Comment
Construction: Powder coated steel or stainless steel housing
Fan: Efficient EC motor with backwards-curved blades
Airflow control: BUS controlled system or handheld control. Also available as CamFFU_IS-EC_sce for easy 0-10V potentiometer control
Filter: Megalam H14, U15 or U16, MD or MX with Camfil Sil-Gel gasket to be ordered separately

CAMFFU HIGH PERFORMANCE HP-EC

ADVANTAGES

  • Very rigid construction
  • EC Fan with high reserve capacity for pre- and AMC filtration
  • Individual control
  • Low power consumption

Application
Units can be screwed together to form individual cleanroom ceilings
e.g. for machine enclosures, clean work cabins or minienvironments
from ISO 14644 class 8.0 to ISO 1.0

Product voltage: (V) 200…240V
Type: Fan filter unit
Temperature: max 0 – 40ºC
Installation Options: System can span up to 4800 mm x 4800 mm or supported by pedestals
Comment
Construction: Powder coated steel or stainless steel housing
Fan: Efficient EC motor with backwards-curved blades
Airflow control: BUS controlled system or handheld control. Also available as
CamFFU_IS-EC_sce for easy 0-10V potentiometer control
Filter: Megalam H14, U15 or U16, MD or MX with Camfil Sil-Gel gasket to be ordered separately

CAMFFU COMPACT SOLUTION

ADVANTAGES

  • Low sound power level
  • EC Fan with high reserve capacity for pre- and AMC filtration
  • Very low design height
  • Simple direct speed control
  • Low power consumption

Application
Flexible and economical modular solution to equip turbulent clean rooms from ISO 8 to ISO 1 with very low space above the false ceiling

Product voltage: (V) 200…240V
Type: Fan filter unit
Temperature: max 0 – 40ºC
Installation Options: Installation in Camfil CamGRID-FFU ceiling or equivalent systems

Comment
Construction: Aluminum housing, powder coated steel on request
Fan: Efficient EC motor with backwards-curved blades
Airflow control: Simple speed control by the means of an integrated 0-10V
rotary potentiometer
Filter: Megalam H14, U15 or U16, MD, MX or MG with dry PU gasket to be ordered separately