Mircom’s FleX-Net Mid-Size Network Panel is a powerful intelligent networkable fire alarm solution. It has many levels of flexibility to meet virtually any application of detection, control, notification and emergency communications. Features such as fire detection & alarm, audio/voice evacuation, BACnet, Boolean logic, networking and graphical work stations allow this modular solution to accommodate the simplest systems up to the most complex solutions.
Description:
Mircom’s FleX-Net Mid-Size Network Panel is a powerful intelligent networkable fire alarm solution. It has many levels of flexibility to meet virtually any application of detection, control, notification and emergency communications. Features such as fire detection & alarm, audio/voice evacuation, BACnet, Boolean logic, networking and graphical work stations allow this modular solution to accommodate the simplest systems up to the most complex solutions.
With the addition of the Advanced Protocol (AP), Fire/CO detection and 520 Hz support on both the addressable loop and through the audio/voice evacuation. Mircom’s FleX-Net takes you even farther into the future with expanded capabilities.
Mircom’s FleX-Net Mid-Size Network Panel supports peer-to-peer network communications. The FX-2009-12NDS allows for a maximum of 63 nodes while providing reliability, flexibility and expandability.
Each base panel consists of one intelligent signalling line circuit (SLC), capable of supporting 159 analog Sensors and 159 addressable modules. In addition, the base panel includes Four Style Z/Y (Class A/B) Notification Appliance Circuits and an easy to read and use, large 4 x 20 back-lit alphanumeric LCD display.
The network configuration allows the FX-2009-12NDS control panel to be connected to a Mircom network. This connection provides additional input circuits, visual zones, programmable notification appliance circuits, and relays. The network interface module allows the panels to communicate on a peer-to-peer network via a Proprietary Arcnet Network Communications protocol.