Run individual fixtures up to entire circuits including recessed lights, wall sconces and accent lights with the Advanced Load Controller, a 20AMP load controller and relay with 0-10V output for dimming.

The Advanced Load Controller includes a relay to switch drivers and circuits on and off, as well as a 0-10V output able to control dimming of one or more drivers. Every SL-ALC20 includes an RJ12 port designed to connect with the SigmaSmart Sensor2. When connected, the sensor can detect occupancy, vacancy, available daylight, temperature, and humidity levels within the sensing area. Then the sensor leverages the SL-ALC20’s on-board 6LoWireless communication to transmit that data across the network.

The SL-ALC20 is able to measure the amount of power passing through it to its controlled fixture or zone and then uses this information to track energy consumption and detect failed drivers or lamps.

The Smart networked controls system is powered by Amatis Controls.

 Installing Advanced Load Controller

 Features:

  • Controls individual lights up to complete circuits
  • 20AMP power load controller
  • Plug load control allows control receptacles to be disabled when rooms are vacant, saving energy
  • Self-contained relay switches line voltage loads
  • 0-10V output able to control dimming of one or more drivers
  • Demand-response ready with accessible APIs
  • RJ12 input for MLTH2 Sensor detecting motion, light, temperature and humidity
  • Onboard power metering
  • Quickly installs using a 1/2’’ knock-out on a junction box or fixture
  • Remotely configurable / upgradeable
  • Amatis app easily commissions the AMBR and all devices on the mesh network
  • Unique IPv6 address

An Internet of Things wireless mesh network lighting controls system. The 6LoWireless mesh network is a robust communication system used by all Smart devices to communicate commands and data across the building. Each device is in constant communication with other devices in the network thereby eliminating range limitations. This creates a system that is fault-tolerant should one of the devices lose communication and allows for a system that acts cohesively across zones.