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GE VMIVME-7614-132

The GE VMIVME-7614-132 is a versatile VMEbus module designed for industrial control and automation applications.

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Detailed content

Technical Specifications

  1. Model: VMIVME-7614-132
  2. Type: VMEbus Module
  3. Functionality:
    • This module typically serves as an interface or controller within VMEbus-based systems.
    • It is used for real-time data acquisition, control, and communication in various industrial applications.
  4. Power Requirements:
    • Voltage: Operates on standard VMEbus power supplies, usually 5V DC and 12V DC.
    • Power Consumption: Specific power consumption details are generally provided in the technical datasheet.
  5. Physical Specifications:
    • Form Factor: Standard 6U VMEbus form factor
    • Dimensions: The physical dimensions conform to the VMEbus standard, usually 233.35 mm x 160 mm (6U x 160 mm).

Features

  1. High-Speed Processing:
    • Capable of high-speed data processing to handle demanding real-time control and data acquisition tasks.
    • Suitable for applications requiring fast and reliable performance.
  2. Flexible I/O Options:
    • Offers a range of I/O capabilities, which can be configured for different types of input and output operations.
    • Supports various types of sensors, actuators, and other peripheral devices.
  3. Modular Design:
    • Designed to integrate easily into a VMEbus system.
    • Modular design allows for expansion and scalability of the control system.
  4. Communication Interfaces:
    • Provides interfaces for communication with other system components and external devices.
    • Supports various communication protocols depending on configuration and application.
  5. Real-Time Operation:
    • Ensures real-time data acquisition and control, which is critical for industrial automation and process control applications.

Applications

  1. Industrial Automation:
    • Used in industrial automation systems for real-time control and data acquisition.
    • Suitable for applications in manufacturing, production, and process control.
  2. Data Acquisition Systems:
    • Ideal for use in systems that require high-speed data acquisition and processing.
    • Commonly employed in research and testing environments.
  3. Control Systems:
    • Applied in control systems where reliable and fast data processing is necessary.
    • Used in both standalone and distributed control architectures.
  4. Embedded Systems:
    • Integrated into embedded systems for specialized control and monitoring tasks.
    • Useful in environments where space and performance constraints are critical.

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