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TRICONEX 2481

¥3,412.00

  1. Purpose
    The TRICONEX 2481 is a digital input module designed for safety-critical applications in industrial automation and control systems. It is used to monitor and process digital signals from various sensors and devices, ensuring safe and reliable operation in hazardous environments.
  2. Features
    • High-speed digital signal processing for real-time monitoring.
    • Configurable input voltage ranges for flexibility in various applications.
    • Redundant power supply options for enhanced reliability.
    • Hot-swappable design for easy maintenance and replacement.
    • Integrated diagnostics for real-time monitoring and fault detection.
    • Compatibility with Triconex Safety Instrumented System.
Category:

Description

  1. Specifications
    • Type: Digital Input Module (part of the Triconex Safety Instrumented System by Schneider Electric).
    • Input Channels: 16 digital input channels.
    • Input Voltage Range: 24 V DC (configurable for other ranges).
    • Operating Temperature: -40°C to +70°C.
    • Power Supply: 24 V DC.
    • Communication Interface: Tricon communication bus.
    • Dimensions: Approximately 150 mm (width) x 100 mm (depth) x 50 mm (height).
    • Weight: Approximately 0.8 kg.
  2. Purpose
    The TRICONEX 2481 is a digital input module designed for safety-critical applications in industrial automation and control systems. It is used to monitor and process digital signals from various sensors and devices, ensuring safe and reliable operation in hazardous environments.
  3. Features
    • High-speed digital signal processing for real-time monitoring.
    • Configurable input voltage ranges for flexibility in various applications.
    • Redundant power supply options for enhanced reliability.
    • Hot-swappable design for easy maintenance and replacement.
    • Integrated diagnostics for real-time monitoring and fault detection.
    • Compatibility with Triconex Safety Instrumented System.
  4. Stability and Reliability
    • Designed for operation in harsh industrial environments, including high temperatures and vibration.
    • High-quality components and rigorous testing ensure long-term reliability.
    • Redundant communication and power supply options minimize downtime.
    • Built-in diagnostics and error reporting for quick troubleshooting.
    • Compliance with industrial standards for safety and performance.
  5. Practical Use Cases
    • Oil and Gas: Monitoring and controlling safety-critical processes in extraction and refining.
    • Power Generation: Ensuring safe operation of turbine systems in gas, steam, and hydroelectric power plants.
    • Chemical Industry: Monitoring and controlling safety-critical processes in chemical plants.
    • Pharmaceutical Industry: Ensuring safe operation of production processes in pharmaceutical plants.
    • Nuclear Power: Monitoring and controlling safety-critical processes in nuclear power plants.

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