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  • MOTOROLA MVME761-001 VMEbus Single Board Computer
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  • MOTOROLA MVME761-001 VMEbus Single Board Computer

    110V-380V
    5W-130W
    1A-30A
    1 year
    30
    United States, France, Japan, Viet Nam, Australia, Russia, Germany, Italy, Arabia
    • ¥17523.00
      ¥17842.00
      ¥17523.00
      ¥17523.00
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    Weight:0.240KG
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    • (Inventory: 8547)
Description
<span style="font-size: 20px; font-family: arial;">MOTOROLA MVME761-001 VMEbus Single Board Computer</span>

MOTOROLA MVME761-001 VMEbus Single Board Computer

The MOTOROLA MVME761-001 is a VMEbus single board computer engineered to support industrial automation and embedded control systems. As part of Motorola’s established MVME family, this board is designed to deliver reliable processing capability, structured system integration, and long-term operational stability within VME-based architectures.

Built around a PowerPC processor architecture, the MVME761-001 provides balanced performance for real-time control, communication management, and system coordination. Its design reflects Motorola’s focus on deterministic behavior and dependable operation in mission-critical environments.

Processor Architecture and Embedded Computing Capability

The MVME761-001 utilizes a PowerPC-based processor architecture optimized for embedded and industrial computing applications. This architecture supports efficient instruction execution and is well suited for systems requiring predictable response times and consistent processing behavior.

The processor is tightly integrated with the board’s memory and peripheral subsystems, enabling smooth data flow and coordinated operation across control, monitoring, and communication tasks. This integration makes the MVME761-001 suitable for complex embedded control platforms.


Memory Architecture and Data Management

The MOTOROLA MVME761-001 supports a flexible memory architecture designed to meet the requirements of embedded operating systems and industrial control software. Memory resources can be configured to accommodate system programs, application logic, and runtime data.

Support for both volatile and non-volatile memory types allows reliable storage of operating systems and configuration data. The memory design contributes to system stability and supports continuous operation in demanding industrial environments.

VMEbus Interface and System Integration

As a VMEbus single board computer, the MVME761-001 is fully compatible with standard VMEbus architectures. The board supports high-speed communication across the VME backplane, enabling efficient interaction with I/O modules, communication boards, and additional processing units.

The VMEbus interface allows the MVME761-001 to function as a system controller or as a processing node within a distributed control system. This flexibility supports a wide range of system designs and application requirements.

Integrated I/O and Communication Interfaces

The MVME761-001 includes a variety of integrated I/O and communication interfaces designed to support industrial connectivity. These interfaces enable communication with external devices, field equipment, and supervisory systems.

Ethernet connectivity allows the board to participate in networked control environments, supporting data exchange, remote monitoring, and system supervision. Serial interfaces provide compatibility with legacy industrial devices and control equipment.

Operating System Support

The MOTOROLA MVME761-001 is designed to support a range of embedded and real-time operating systems. Its hardware architecture is compatible with widely used RTOS platforms as well as embedded UNIX-based operating environments.

This operating system flexibility enables developers to select software solutions that best match application requirements, whether for real-time control, communication management, or system coordination.

Reliability and Industrial Design

Reliability is a central design principle of the MVME761-001. The board is engineered to operate consistently in industrial environments where continuous operation and long-term stability are essential.

Component selection, board layout, and electrical design follow industrial standards, ensuring resistance to electrical noise, sustained workloads, and environmental stress factors commonly encountered in control applications.


Application Areas

The MOTOROLA MVME761-001 is widely used in industrial automation systems, where it serves as a central processing unit for control and coordination tasks. Its VMEbus compatibility makes it suitable for power generation and distribution control platforms.

In transportation and infrastructure systems, the board supports monitoring, signaling, and control functions that require deterministic and reliable operation. It is also applied in test systems and specialized embedded control solutions.

System Maintenance and Longevity

The modular design of the MVME761-001 simplifies system maintenance and long-term support. Standardized interfaces and VMEbus compliance allow components to be replaced or upgraded with minimal system disruption.

This design approach supports extended product life cycles, which is particularly important in industrial sectors with long deployment and certification timelines.

Conclusion

The MOTOROLA MVME761-001 VMEbus single board computer provides a robust and flexible computing platform for industrial and embedded control applications. Its PowerPC processor architecture, scalable memory support, integrated I/O interfaces, and VMEbus compatibility make it well suited for complex and long-term industrial systems.

By combining performance, reliability, and system integration flexibility, the MVME761-001 continues to serve as a dependable solution within VME-based automation and control environments.

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