VMIC+ASSY 12149

الوصف

Product Name

VMIC 5588-144 High-Speed Multi-Port Serial I/O Board (Assembly: VMIC+ASSY 12149)

Product Description

The VMIC+ASSY 12149 designates a specific assembly number for the VMIC 5588-144 High-Speed Multi-Port Serial I/O Board, a robust and versatile VMEbus-compatible module. Designed by VMIC, a company with a strong legacy in rugged industrial computing solutions, this board provides critical serial communication capabilities for real-time control and data acquisition systems. The VMIC 5588-144 is engineered to integrate seamlessly into VMEbus backplanes, offering multiple asynchronous serial ports essential for connecting to a wide array of peripheral devices, sensors, and actuators in complex automation environments. With its focus on high-speed data transfer and reliable operation, the VMIC+ASSY 12149 is a cornerstone for many industrial and aerospace applications requiring dependable serial communication within a VMEbus architecture. The board efficiently offloads serial processing from the host CPU, ensuring minimal impact on system performance. This particular assembly, the VMIC+ASSY 12149, represents a proven solution for extending I/O capabilities.

Product Parameters

• VMIC+ASSY 12149
• Form Factor: Standard 6U VMEbus module
• Serial Ports: Typically 8 or 16 independent asynchronous serial ports (configurable depending on daughter cards/connectors).
• Interface Types: Each port is often software-configurable for various standards including RS-232, RS-422, and RS-485.
• Baud Rates: Supports a wide range of baud rates, typically up to 115.2 kbaud or higher per channel, suitable for high-speed data transfer.
• Processor: Features an onboard communication controller (e.g., a Zilog Z8536-based or similar high-performance serial controller) to manage serial data independent of the host CPU.
• Memory: Includes onboard RAM for buffering transmit and receive data, enhancing throughput and reducing host intervention.
• Data Flow Control: Supports hardware (RTS/CTS) and software (XON/XOFF) flow control.
• Interrupts: Configurable interrupt capabilities for efficient handling of data reception and transmission events.
• Connectors: Typically uses high-density D-sub connectors (e.g., DB-9 or DB-25 via breakout cables) for serial connections.
• Power Consumption: Specifics vary but are generally within VMEbus power allowances for a 6U board.
• Operating Temperature: Designed for industrial operating temperature ranges, often 0°C to 70°C, with ruggedized versions for extended ranges.

Advantages and Features

• High-Density Serial I/O: Provides a large number of serial ports on a single VMEbus slot, maximizing I/O density and reducing system footprint.
• VMEbus Compatibility: Fully adheres to VMEbus specifications, ensuring seamless integration into existing VMEbus-based systems.
• Flexible Configuration: Software-configurable interface types (RS-232, RS-422, RS-485) and baud rates per port offer significant versatility for connecting diverse devices.
• Real-Time Performance: Onboard processing offloads serial communication tasks from the host CPU, crucial for maintaining determinism and response times in real-time applications.
• Robust and Reliable Design: Built to industrial standards, featuring rugged construction suitable for harsh operating environments, ensuring long-term reliability.
• Efficient Data Handling: Equipped with large data buffers and efficient interrupt handling to manage high volumes of serial data with minimal latency.

Application Areas and Case Studies

The VMIC 5588-144 High-Speed Multi-Port Serial I/O Board with assembly VMIC+ASSY 12149 finds extensive use in demanding automation and control applications:

• Industrial Automation: Connecting PLCs, HMIs, motor drives, barcode scanners, and other serial devices in manufacturing plants for data exchange and control.
• Process Control: Interfacing with sensors, actuators, and analytical instruments in chemical plants, oil & gas facilities, and power generation units.
• Test and Measurement Systems: Integrating various measurement devices, data loggers, and test fixtures in automated test equipment (ATE) and scientific research.
• Aerospace and Defense: Utilized in embedded systems for flight simulation, ground support equipment, and real-time control applications where ruggedness and reliability are paramount.
• Telecommunications: In legacy or specialized telecom equipment requiring robust serial communication interfaces.
• Motion Control: Providing serial links for multi-axis motion controllers and robotic systems.

Competitive Products Comparison

The VMIC 5588-144 (VMIC+ASSY 12149) operates within the VMEbus ecosystem, competing with other manufacturers specializing in industrial and real-time computing.

• Abaco Systems (formerly GE Fanuc/VMIC): As the current product owner, Abaco offers a broad range of VMEbus boards, including newer or specialized serial I/O modules that might offer higher port densities or more advanced features like Ethernet encapsulation of serial data.
• Curtiss-Wright Defense Solutions: A major player in the embedded computing space, offering VMEbus I/O modules, often with a focus on defense and aerospace applications, sometimes providing more integrated solutions or specialized ruggedization.
• Concurrent Technologies: Provides a range of VME and VPX boards, including I/O options. Their serial I/O boards might feature newer communication protocols or higher processing power for complex data manipulation.
• Acromag: Known for its I/O solutions, including carrier boards and configurable I/O modules for various bus architectures. Their approach might involve modular I/O that plugs onto a base VME board, offering different levels of flexibility.

Compared to these, the VMIC 5588-144 (VMIC+ASSY 12149) stands out for its proven reliability and straightforward, high-density serial connectivity within the established VMEbus standard, making it a dependable choice for legacy systems or new designs prioritizing simplicity and robustness.

Selection Recommendations

When selecting the VMIC+ASSY 12149 (VMIC 5588-144) or a similar serial I/O board, consider the following:

• VMEbus System Compatibility: Ensure your VMEbus chassis and power supply can accommodate the 6U form factor and power requirements.
• Number and Type of Ports: Verify if the 8 or 16 configurable ports (RS-232/422/485) meet your specific device connection needs.
• Baud Rate Requirements: Confirm the board’s maximum baud rate per channel is sufficient for your application’s data transfer speed.
• Operating System and Driver Support: Ensure compatibility with your existing operating system (e.g., VxWorks, Linux, Windows) and availability of stable drivers.
• Environmental Conditions: Assess if the standard or extended temperature range and ruggedness features match your operating environment.
• Future Expansion: Consider if the current port count is sufficient for future expansion or if a more modular solution might be better.
• Budget: While robust, legacy VME components might have varying availability and pricing.

Precautions

• Electrostatic Discharge (ESD): Always follow proper ESD handling procedures when installing or removing the VMIC+ASSY 12149 board to prevent damage to sensitive electronic components.
• VMEbus Slotting: Ensure the board is correctly seated in a compatible VMEbus slot to avoid bent pins or improper contact.
• Power Requirements: Confirm your VMEbus power supply can deliver the necessary voltage and current for the board and any other installed modules.
• Cabling: Use appropriate high-quality serial cables and breakout boxes to ensure signal integrity, especially for RS-422/485 over long distances.
• Software Drivers: Install the correct and compatible software drivers from Woodward (or Abaco Systems) for your operating system to ensure full functionality and stable operation of the VMIC 5588-144.
• Configuration: Carefully configure the serial port settings (baud rate, parity, data bits, stop bits, flow control) to match the connected devices.

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VMIC+ASSY 12149

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