NLC USB Wireless Energy Monitoring Bridge
The NLCE1 is an energy monitoring and real time clock dongle for collecting energy consumption data in order to generate an energy report and to sync all devices in one zone. NLCE1 records the energy consumption raw data for every device in the zone in 15 minute intervals for up to 100 device group.…
The NLCE1 is an energy monitoring and real time clock dongle for collecting energy consumption data in order to generate an energy report and to sync all devices in one zone. NLCE1 records the energy consumption raw data for every device in the zone in 15 minute intervals for up to 100 device group. It will generate approximately 28MB of data in a month. For longer periods, use an SD card with a minimum of 700MB. Refer to Energy Monitoring Instructions for detailed information.
- Collects and records energy consumption data for up to 100 device groups
- Synchronizes devices within a zone using integrated real time clock functionality
- Bluetooth Low Energy (BLE) 5.0 mesh networking with up to 200Ft range
- Plug-and-play USB-A powered design with included Lightning and USB-C SD card readers
- Compatible with all NICOR NLC product series and commissioned via NLC mobile app
Ordering information
Downloads
Specifications
Listings & certifications
- cULus Listed
- UL 1376 Verified (Gold)
- NLC LLLC Listed
- UL 94 V-0 (Flame Resistance)
- IP20 Ingress Protection
- RoHS Compliant
- FCC Title 47 (15:B)
Features
Construction
- Housing made of fire retardant plastic (UL 94-V0)
- IP20 Ingress Protection
Electrical
- Plug and play with any 5V USB-A charging port
- 500mA Max
- Radio frequency: 2.4GHz
- Operating temperature rating: -22ºF to 131ºF (-30ºC to 55ºC)
- Operated with built-in CR2032 battery
- Comes with lightning and type C SD card readers
- SD card must be formatted as FAT32 for compatibility
Full Listings
- UL 1376 Cyber Security Certification
- RoHS Compliant
- FCC Part 15.247
Warranty
- 5-year limited system warranty standard
- Warranty does not cover product failure due to an overvoltage event (power surge)

