We are excited to announce the immediate implementation of a product enhancement resulting from customer feedback.  A firmware improvement to our electronic fan airflow measuring station (EFAMS) facilitates field calibration to meet site specific conditions.  

 

Ruskin's EFAMS electronic fan-inlet air measurement station utilizes thermal dispersion technology combined with low-pressure drop aerodynamic sensors to measure the airflow at the highest velocity point in the system.  This lower pressure drop equates to lower cost of operation over the life of the building when compared to other fan inlet devices.


The Ruskin EFAMS features and benefits:
Can be retrofitted into existing systems where space does not exist for traditional air measurement devices.  
Includes a minimum of two sensors, a router and transmitter box with LCD display showing both temperature and air flow velocity or volume in either FPM, CFM or Meters per second or Liters per second.  
Easily field configured for any size fan.  
The transmitter box provides two isolate 4-20 mA analog linear signal outputs representing measured air flow and temperature and shares the same platform as our EAMP, electronic air measurement probes.

Ruskin's unique patented design provides lower pressure drop and accurate measurement of fan inlet air flow and inlet temperature.


We are currently shipping the EFAMS with firmware version 8.6. With this release, calibration of the EFAMS air measurement station is accomplished on the installed fan using actual air flows. Our unique design does not rely on measurement of 100% of the air entering the fan, only measurement of an air flow that we know will track the actual air flow through the fan. The benefit is a more accurate air flow measurement (taking into account system effects) without adding a significant energy penalty, typical of most aftermarket fan inlet air measurement devices.

The EFAMS is a great product!  Proven to be rock solid, highly accurate and repeatable.

Updated information can be viewed through the following links.