Edwards Signaling SIGA-RM1 Analog Addressable Riser Monitor Module

Regular price
$67.49
Regular price
Sale price
$67.49

Manufacturer : Edward Systems

Sku : SIGA-RM1

Condition : New

1 available

Edwards Signaling SIGA-RM1 Analog Addressable Riser Monitor Module is an indispensable component of modern fire detection and alarm systems. With its advanced features, versatile compatibility, and robust construction, it enhances the reliability, efficiency, and safety of fire protection systems in diverse environments. Whether deployed in small-scale facilities or large industrial complexes, the SIGA-RM1 provides comprehensive monitoring and diagnostic capabilities, ensuring prompt detection and response to fire hazards.
  • •Analog Addressable Technology: The SIGA-RM1 utilizes advanced analog addressable technology, allowing it to communicate directly with compatible fire alarm control panels (FACP).
  • •Riser Circuit Monitoring: This module is specifically engineered to monitor the status of riser circuits within a fire alarm system. Riser circuits play a critical role in transmitting alarm signals from various detection devices (such as smoke detectors or heat sensors) to the FACP.
  • •Riser Circuit Monitoring: This module is specifically engineered to monitor the status of riser circuits within a fire alarm system. Riser circuits play a critical role in transmitting alarm signals from various detection devices (such as smoke detectors or heat sensors) to the FACP.
  • •LED Indicators: The module is equipped with intuitive LED indicators that provide visual feedback on the status of monitored riser circuits. These indicators help technicians quickly identify issues and take appropriate corrective actions.
  • •Remote Monitoring Capabilities: With its analog addressable communication protocol, the SIGA-RM1 enables remote monitoring and diagnostics through the FACP or compatible software platforms. This feature facilitates proactive system management, allowing operators to promptly address issues and maintain optimal system performance.