NXE100-1608DBW

¥2,470.00

  1. Practical Use Cases
    The NXE100-1608DBW is a high-performance industrial control module widely used in automation systems, particularly in applications requiring high precision and reliability. Here are some typical use cases:

    • Manufacturing: Integrated into production lines for monitoring and controlling machinery.
    • Energy: Used in power distribution systems for real-time data acquisition and control.
    • Transportation: Applied in railway signaling and traffic control systems.
    • Water Treatment: Utilized for monitoring and controlling water quality and flow rates.
  2. Purpose
    The NXE100-1608DBW is designed for data acquisition, signal processing, and control tasks in industrial automation systems. It ensures high precision and reliability in monitoring and controlling various processes.
  3. Weight and Dimensions
    • Weight: Approximately 1.5 kg.
    • Dimensions: 250 mm (width) x 200 mm (depth) x 80 mm (height).
Category:

Description

  1. Practical Use Cases
    The NXE100-1608DBW is a high-performance industrial control module widely used in automation systems, particularly in applications requiring high precision and reliability. Here are some typical use cases:

    • Manufacturing: Integrated into production lines for monitoring and controlling machinery.
    • Energy: Used in power distribution systems for real-time data acquisition and control.
    • Transportation: Applied in railway signaling and traffic control systems.
    • Water Treatment: Utilized for monitoring and controlling water quality and flow rates.
  2. Purpose
    The NXE100-1608DBW is designed for data acquisition, signal processing, and control tasks in industrial automation systems. It ensures high precision and reliability in monitoring and controlling various processes.
  3. Weight and Dimensions
    • Weight: Approximately 1.5 kg.
    • Dimensions: 250 mm (width) x 200 mm (depth) x 80 mm (height).
  4. Features
    • High Precision: Ensures accurate data acquisition and signal processing.
    • Modular Design: Easy to install, maintain, and expand, adapting to various industrial needs.
    • Multiple Communication Interfaces: Supports Ethernet, RS-485, and other communication protocols for seamless integration.
    • Robust Construction: Designed to withstand harsh industrial environments, including high temperatures and vibrations.
    • User-Friendly Configuration Tools: Provides easy configuration and diagnostic functions, reducing complexity.
  5. Stability and Reliability
    • Environmental Adaptability: Operates reliably in temperatures ranging from -40°C to +70°C, suitable for harsh industrial environments.
    • High Reliability: Uses high-quality components and rigorous manufacturing processes to ensure long-term stability.
    • Fault Diagnosis: Built-in diagnostic functions allow real-time monitoring and quick troubleshooting.
    • Redundancy Design: Supports power and communication redundancy, enhancing system reliability and fault tolerance.
    • Compliance with Industrial Standards: Certified for safety and performance in industrial applications.
  6. Technical Specifications
    • Input Channels: 16 analog inputs, 32 digital inputs.
    • Output Channels: 16 analog outputs, 32 digital outputs.
    • Input Signal Range: Voltage (0-10 V, ±10 V), current (0-20 mA, 4-20 mA).
    • Resolution: 16-bit analog input/output for high-precision data acquisition and control.
    • Operating Temperature: -40°C to +70°C.
    • Power Supply: 24 V DC.
    • Communication Interfaces: Ethernet, RS-485, CAN bus, etc.
    • Power Consumption: Typically 20 W.
    • Protection Rating: IP65.

Conclusion
The NXE100-1608DBW is a highly reliable and versatile component for industrial automation and control systems. Its high precision, modular design, and robust construction make it an ideal solution for various industrial applications. Whether in manufacturing, energy, transportation, or water treatment, the NXE100-1608DBW ensures efficient and reliable process control and data acquisition.