Vesda-E VES VES-A00-P Aspirating Smoke Detector with LEDs
The VESDA-E VES is an advanced aspirating smoke detector (ASD) capable of monitoring smoke density on a per-pipe (sector) basis, allowing a single zone to be divided into up to four separate sectors. This sector addressability enables rapid response to potential fire events by pinpointing the affected area, reducing search times and improving safety.
Built on Flair detection technology, the VESDA-E VES provides very early warning with superior dust rejection, ensuring reliable operation in a wide range of environments over its lifetime. Each pipe can be configured with four programmable alarm thresholds (Alert, Action, Fire 1, Fire 2) for flexible field application. Once the first sector reaches the Alert threshold, the detector continues sampling all sectors, reporting real-time status per sector via the intuitive touch-screen display.
Key Features:
Sector addressability for up to four zones or sectors
Adaptive scan thresholds for reliable detection
Flair detection technology minimizes nuisance alarms
Multi-stage filtration and optical protection with clean air barriers for lifetime performance
Four configurable alarm levels per sector and wide sensitivity range
Intuitive LCD display for instant status updates
Flow fault thresholds per port for varying airflow conditions
Smart on-board filter tracks dust count and remaining filter life
Extensive event log (20,000 events) for diagnostics and analysis
AutoLearn™ smoke and flow for fast, reliable commissioning
Backward compatible with VLS and VESDAnet systems
Ethernet connectivity for configuration, monitoring, and maintenance via Xtralis software
Secondary monitoring and maintenance via WiFi
USB port for PC configuration and firmware updates via memory stick
Two programmable GPIs (1 monitored) for flexible remote control
Field-replaceable sub-assemblies for faster servicing and maximum uptime
The VESDA-E VES is the most advanced, flexible, and reliable ASD system, delivering industry-leading early warning detection and long-term performance across demanding environments.