IMS3DXC Series
IMS Enabled DALI-2 Input Controller
Product description
The IMS3DXC DALI-2 Input Controller provides DALI-2 control of low voltage devices such as switches or sensors. Powered via the DALI-2 bus, it is compatible with the NICOR IMS 3.0.
- Converts up to four low-voltage switches or sensors into DALI-2 control inputs for lighting automation
- Powered directly from the DALI bus with compact form factor for installation behind switches and sensors
- Supports configurable DALI commands including short press, long press, dimming, and toggle functions
- Features four potential-free inputs with DALI-2 multi-master communication capability
- Compatible with NICOR IMS 3.0 systems and compliant with IEC 62386-103 DALI-2 standards
Color Options:
Ordering information
Downloads
Specifications
Listings & certifications
Listings & Certifications
- cULus Listed
- DALI Alliance Certified
- RoHS Compliant
- IP20 Ingress Protection
Other Certifications
- DALI-2 control unit according to IEC 62386-103
- Powered via DALI bus (DALI-voltage according to IEC 62386 (2014))
Features
Construction
- Halogen-free, non-flammable polycarbonate housing
- 7 push-to-release wire ports: 2 DALI-2 output, 4 device input, 1 common
- Operates in temperatures from -4°F to 167°F (-20°C to 75°C)
- Storage temperature: -4°F to 167°F (-20°C to 75°C)
Electrical
- Powered via DALI-2 bus
- 3.3mA Typical, 3.6mA Max current draw
- Compact DALI-2 control module with 4 potential-free inputs
- Different DALI commands can be assigned to each input
- Four DALI-2 pushbutton instances are available for easy integration
- Short button press, long button press (with repetition for dimming) and <
> are supported - DALI-2 control unit according to IEC62386-103
- Powered via DALI bus (DALI-voltage according to IEC62386 (2014))
Installations
- Wire ports accept 20-16AWG solid or stranded wire
- Install into standard junction box behind sensor or switch
Full Listings
- IP20 Ingress Protection
Warranty
- 5-year limited system warranty
- Warranty does not cover product failure due to an overvoltage event (power surge)
