Vendor: Honeywell

Honeywell FS-16DI-RL Relay Input Terminal Board

SKU: FS-16DI-RL
In stock
Description

Description

The Honeywell FS-16DI-RL is a high-density Relay Input Terminal Board specifically designed for the Fail Safe Control (FSC) and Safety Manager architectures. This board serves as the physical interface between field-side digital signals and the system's input modules, providing essential relay isolation to protect sensitive control logic. I

Specifications

  • Manufacturer: Honeywell
  • Model Number: FS-16DI-RL
  • Input Channels: 16 independent digital input channels
  • Interface Type: Relay-isolated input terminal board
  • Compatibility: Designed for use with Honeywell FSC and Safety Manager systems
  • Contact Type: Potentially dry contact or voltage-sensing depending on configuration
  • Isolation: Galvanic relay isolation between field circuitry and system logic
  • Mounting: Standard DIN rail or specialized safety system cabinet mounting
  • Connection Type: Robust screw terminals for secure field wiring
  • Dimensions: Compact form factor for high-density cabinet installation

Features

  • Enhanced Safety Isolation: Utilizes mechanical relays to provide superior electrical isolation, preventing field surges from damaging the controller.
  • Signal Conditioning: Effectively filters and stabilizes incoming digital signals to eliminate noise and debounce interference.
  • Status Visualization: Equipped with per-channel LED indicators for immediate visual confirmation of input status and troubleshooting.
  • High Reliability: Built with industrial-grade relays rated for high-cycle operations in critical safety environments.
  • Simplified Maintenance: The modular board design allows for straightforward wiring and quick identification of specific channel faults.
  • Fail-Safe Integrity: Optimized for integration into SIL-rated loops where signal accuracy and separation are paramount.
  • Durable Construction: Features a rugged PCB coating and terminal blocks designed to withstand vibration and temperature fluctuations.