The Levitronix® BFS-i06 is designed for demanding applications in microelectronics manufacturing. Based on active magnetic levitation, the fan impeller is suspended and driven by the magnetic field of the motor. The wide gap ensures that there is no wear and therefore virtually no particle generation, making it the purest fan. As the impeller and stator are completely encapsulated, the fan is extremely resistant against aggressive media and is rated for use in explosive atmospheres.
The purest fan within semiconductor manufacturing (and beyond)!
Since there is no mechanical coupling between the impeller and the fan head casing, there is no wear and therefore virtually no particle generation.
Robust against aggressive gases
As the impeller and stator are completely encapsulated, the fan is extremely resistant against aggressive media.
ATEX/ IECEx certified
The BFS-i06 is ATEX / IECEx certified and allows installation within an ATEX Zone 1 area for gas and ATEX Zone 21 for dust.
Up to 8.4 Nm3/min
With the impeller suspended, high speeds of 13’000 rpm and thus a high flow can be achieved.
Reduced particle build-up
There is no mechanical bearing, thus the risk of a fan failure is substantially reduced.
Significantly reduced footprint and cabling effort
The motor and pump controller are integrated into the driver housing resulting in a significantly reduced footprint.
From a few Ncm3/min up to max flow
The BFS-i06 has the highest turndown ratio by being able to accurately control and maintain the flow from a few Ncm3/min up to the maximum flow rate.
Increase your equipment uptime
There are no bearings to wear out or seals to breakdown, therefore equipment uptime increases which extends the life of your process equipment and also reduces maintenance costs.
Create a feedback loop
Integrate a flow or pressure sensor into your system and create a feedback loop that will allow you to automatically maintain your desired process conditions.
Significantly smaller footprint than conventional fan
The BFS-i06 has a much smaller footprint than competitive fans of comparable hydraulic performance.