The new intelligent FAAST evolves beyond the common scenarios of monitoring one or more standalone aspiration systems, or the use of intricate and costly equipment to interface these separate systems with various fire alarm systems. FAAST requires no additional hardware, software or special wire, and by integrating with NOTIFIER fire alarm systems like many other addressable detectors, aspiration system installation becomes very straightforward. NOTIFIER can support up to 31 intelligent FAAST detectors on a single loop for applications such as correctional facilities, data centers and warehouses where the area of coverage is expansive.
FAAST’s very early warning of smoke is crucial for facilities focused on minimizing property damage and business disruptions, such as museums, historic buildings, telecommunication hubs, office buildings and laboratories. Hospitals, nursing homes, prisons and other properties need the immediate warning FAAST provides to respond appropriately and diminish loss-of-life. Lastly, there are those challenging applications where high air velocities, extreme temperature fluctuations and hard-to-reach areas exist that can benefit from the flexible design and highly-sensitive detection FAAST provides.
Utilizing a network of pipes, the FAAST detector continuously draws air samples into its sensor. Its exclusive dual sensing technology uses a highly sensitive blue LED (light-emitting diode) to sense smoke, while an infrared laser quickly distinguishes other airborne particulates that could otherwise cause a false alarm. Through the use of complex algorithms, the detector then interprets signals from both sources to warn of smoke up to 60 minutes prior to combustion.
Five programmable alarm levels, the most offered by any aspiration detector, allow optimum flexibility in setting detector sensitivity levels and warnings for site-specific requirements. An exclusive Acclimate Mode feature automatically regulates system settings to stay within pre-specified parameters to adjust to current conditions and further reduce false alarms.