IMS3D128 Series
IMS 3.0 Illumination Management System
Product description
The NICOR IMS 3.0 is a DALI (Digital Addressable Lighting Interface) lighting management system that can provide controls to a complete lighting system. Manual controls, dimming, scheduling, daylight harvesting and motion sensing are all available as additional features on system. The IMS allows for…
The NICOR IMS 3.0 is a DALI (Digital Addressable Lighting Interface) lighting management system that can provide controls to a complete lighting system. Manual controls, dimming, scheduling, daylight harvesting and motion sensing are all available as additional features on system. The IMS allows for sumple, cost-effective lighting installations with full luminaire control through DALI-2 control.
- Full DALI-2 lighting management system with support for up to 128 devices
- Enables dimming, scheduling, daylight harvesting, and occupancy-based control
- HTML5 interface with point-and-click commissioning via Ethernet connection
- Flexible wiring topology (daisy chain, T-tap) with up to 985Ft communication distance
- Stand-alone system with secure local configuration (no external network required)
Color Options:
Ordering information
Downloads
Specifications
Listings & certifications
Listings & Certifications
- cULus Listed
- DALI Alliance Certified
- RoHS Compliant
Features
Construction
- 14” x 12” x 7” NEMA 1 enclosure
- Cabinet material 14ga steel
- Fully hinged, latchable front access door
- Louvered top and bottom panels
- ANSI 61 gray polyester powder coat finish
Electrical
- Rated AC input voltage: 100-277V 1.5A Max
- Max power input: 35W
- Output: 16VDC, 3.1W
- Max communication distance: (300m) 985Ft
Installations
- Surface Mount using external mounting tabs
- Four 1” KO’s for input and output conduit fittings
- Unit weight: 24lbs
- Operating Temperature of 32° to 104°F (0°C to 40°C)
Full Listings
- cULus Listed
- RoHS Compliant
- DALI Alliance certified
Warranty
- 5-year limited system warranty
- Warranty does not cover product failure due to an overvoltage event (power surge)
