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IOP341

¥3,168.00

  1. Specifications
    • Processor: High-performance ARM-based processor.
    • Memory: Up to 2 GB RAM, 8 GB Flash storage.
    • Operating Temperature: -40°C to +85°C.
    • Power Supply: 24 V DC.
    • Power Consumption: Typically 15 W.
    • Interfaces: Ethernet, USB, RS-232/485, CAN bus, GPIO.
    • Dimensions: 200 mm (width) x 150 mm (depth) x 60 mm (height).
    • Weight: Approximately 1.2 kg.
  2. Purpose
    The IOP341 is a robust industrial controller designed for demanding automation and monitoring tasks. It is widely used in applications such as energy management, industrial process control, and transportation systems.
  3. Features
    • High-performance processing for real-time data handling.
    • Support for multiple communication protocols (Modbus, Profibus, CANopen, etc.).
    • Dual Ethernet ports for high-speed data exchange and redundancy.
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Description

  1. Specifications
    • Processor: High-performance ARM-based processor.
    • Memory: Up to 2 GB RAM, 8 GB Flash storage.
    • Operating Temperature: -40°C to +85°C.
    • Power Supply: 24 V DC.
    • Power Consumption: Typically 15 W.
    • Interfaces: Ethernet, USB, RS-232/485, CAN bus, GPIO.
    • Dimensions: 200 mm (width) x 150 mm (depth) x 60 mm (height).
    • Weight: Approximately 1.2 kg.
  2. Purpose
    The IOP341 is a robust industrial controller designed for demanding automation and monitoring tasks. It is widely used in applications such as energy management, industrial process control, and transportation systems.
  3. Features
    • High-performance processing for real-time data handling.
    • Support for multiple communication protocols (Modbus, Profibus, CANopen, etc.).
    • Dual Ethernet ports for high-speed data exchange and redundancy.
    • Rugged design for operation in harsh industrial environments.
    • Expandable I/O options for flexible system integration.
    • User-friendly configuration and programming tools.
  4. Stability and Reliability
    • Designed to withstand extreme conditions, including high humidity, vibration, and temperature fluctuations.
    • High-quality components and rigorous testing ensure long-term reliability.
    • Built-in diagnostics and error detection mechanisms for quick troubleshooting.
    • Compliance with industrial standards for safety and performance.
  5. Practical Use Cases
    • Energy Management: Monitoring and controlling power distribution networks and renewable energy systems.
    • Industrial Automation: Controlling production lines, robotics, and machinery in manufacturing plants.
    • Transportation: Integration into traffic control systems, railway signaling, and fleet management.
    • Building Automation: Managing HVAC, lighting, and security systems in smart buildings.
    • Oil and Gas: Monitoring and controlling extraction and refining processes.

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