NOTIFIER FSV-951R High-Sensitivity Photoelectric Smoke Detector designed for Very Early Warning Fire Detection and will protect valuable assets and operations where systems must remain functioning at all times
FSV-951R VIEW detector features a smoke-sensing chamber and patented optic block designed to amplify signals from smoke, but diminish stray internal reflections that can cause false alarms.
New LED technology allows this detector to achieve sensitivity levels
from 0.02 percent-per-foot to 2 percent-per-foot obscuration – up to 25 times greater than a standard photoelectric detector.
The extensive software processing includes multi-alert drift compensation, internal self-diagnostics, and superior transient signal rejection algorithms to produce unprecedented stability at ultra-high sensitivities across the full temperature range.
This system provides point identification of the fire location through addressability and offers complete supervision of both the wiring and detector.
The VIEW detector is UL-listed and complies with the following UL standards; Canadian models comply with CAN/ULC S529:
• UL 268 listed for Open Air Protection (0.5%/ft. to 2.0%/ft. obscuration)
• UL 268 listed for Special Applications (0.02%/ft. to 0.5%/ft. obscuration)
• UL 268A listed for Duct Applications allowing both in duct and within System Sensor models DNR and DNRW duct smoke detectors.
In addition, the new modern profile blends seamlessly with other 900 series detectors, which offer expanded color options to meet contemporary aesthetic demands.
VIEW is the ideal detection solution for sensitive environments that cannot tolerate even small amounts of smoke:
• Telecommunications switching facilities
• Cellular telephone infrastructure
• Integrated circuit fabrication facilities
• Computer rooms
• Traffic control centers
• Data Centers
Features
• Superior EMI protection
• Very Early Warning Fire Detection capability
• Analog communications
• Low standby current
• Rotary address switches
• 360° visibility of device status with dual LEDs
• On-board drift compensation
• Transient rejection algorithms
• Microprocessor design
• FlashScan® or CLIP protocol communications
• New modern profile with expanded color options