If you’re considering using an MVME147A for a new project, it’s highly recommended to explore modern alternatives. There are many powerful and cost-effective SBCs available today that offer far superior performance and support.
However, if you have a legacy system based on this board and need to maintain it, you might face challenges in finding spare parts or troubleshooting issues.
Would you like to explore modern SBC alternatives or discuss potential challenges with using the MVME147A?
If you’re considering using an MVME147A for a new project, it’s highly recommended to explore modern alternatives. There are many powerful and cost-effective SBCs available today that offer far superior performance and support.
However, if you have a legacy system based on this board and need to maintain it, you might face challenges in finding spare parts or troubleshooting issues.
Would you like to explore modern SBC alternatives or discuss potential challenges with using the MVME147A?
While the MVME 162-01 is an older product, you might find additional details and specifications from the following sources:
Online Marketplaces: Websites like eBay or specialized electronics marketplaces might have listings for this board, which could include detailed descriptions and photos.
Industrial Automation Suppliers: Some industrial automation suppliers might still have information or support for older VMEbus equipment.
VMEbus User Groups or Forums: Online communities focused on VMEbus technology could be a valuable resource for information and troubleshooting.
Contacting Motorola (or its successor, ON Semiconductor): They might have archived documentation or support for older products.
Searching online forums or communities: There might be specialized forums or communities dedicated to VMEbus or industrial automation where someone might have experience with this specific model.
Checking used equipment marketplaces: Sometimes, listings for old equipment include detailed descriptions or specifications.
If you can provide additional details about the board’s function or any other information you have, I might be able to assist you further.
Would you like to try providing more details about the board or its application?
Please let me know if you have any other questions.
Limited Functionality: The 10 Mbps Ethernet speed is significantly slower than modern Ethernet standards.
Driver Compatibility: Driver availability for newer operating systems might be an issue.
Legacy Use: The MVME-376 is likely more suitable for maintaining legacy VMEbus systems than for new projects.
If you’re looking for an Ethernet connectivity solution for a modern system, using a PCI Express network adapter or a more recent Ethernet standard would be a better choice.
Industrial Automation Systems: Enabling communication between VMEbus-based controllers and Ethernet devices in industrial settings.
Embedded Systems: Providing Ethernet connectivity for data transfer or remote access in embedded VMEbus systems.
Availability and Use Today:
The MVME-376 is likely an older product and might be difficult to find new.
VMEbus itself is a legacy standard. While some legacy systems might still be in operation, newer industrial systems typically use modern communication standards like PCI Express.
Obtaining a detailed datasheet for the specific P0917YZ variant might be challenging due to potentially restricted access. Here are some resources that might be helpful:
Schneider Electric Website: Search the Schneider Electric Automation & Control section of their website for “FCP270 control processor”. This might lead to product descriptions, brochures, or application notes providing general information about the FCP270 series.
Contact Schneider Electric Support: Reach out to Schneider Electric’s customer support for details on manuals, datasheets, or compatibility information for the specific P0917YZ variant. They might be able to provide more specific details or alternative resources.
The specific functionalities, supported operating systems, and compatibility with other VMEbus devices might depend on the exact model variant and configuration. Consulting the datasheet and Emerson Automation & Controls documentation is crucial for obtaining precise details.
This is an industrial product designed for professional use in embedded computing applications. Installation, configuration, and maintenance require specialized knowledge and training in embedded systems, operating systems, and the Emerson Automation & Controls programming environment.
I cannot assist with purchasing this product. Please contact Emerson Automation & Controls or an authorized distributor for assistance.
Please note that the Motorola MVME51105E-2163 is an industrial-grade SBC and should only be handled and installed by qualified personnel in accordance with applicable safety standards and regulations.
While the specific datasheet for the MVME55006E-0163 might be challenging to find due to its age, here are some alternative resources that can provide insights into its functionalities and applications
The MOTOROLA VMVME55006E-0163 SBC is suitable for a wide range of industrial control, data acquisition, and embedded computing applications, including:
Industrial automation systems: Manufacturing processes, robotics, and control systems for machinery often rely on VMEbus for its robustness and modularity.
Data acquisition systems: Scientific research and industrial testing frequently involve collecting and processing large data sets, a task well-suited for VMEbus systems.
Telecommunications equipment: VMEbus offered a reliable platform for early telecommunication systems requiring real-time processing.
Military and aerospace applications: The ruggedness and reliability of VMEbus made it suitable for some military and aerospace computing needs.
Alternatives: Consider alternative VMEbus processor modules with more recent processors, memory capacities, and communication interfaces, especially if you require a long-term solution. Several options include:
Newer VMEbus-based processor modules from other manufacturers
Modern industrial PCs (IPCs) designed for harsh industrial environments
Project Requirements: Evaluate your specific computing power, memory requirements, and communication needs when choosing an alternative solution.
Software Compatibility: Ensure the software you intend to use is compatible with the PowerPC architecture and available operating systems for the MVME2400.
Additional Notes:
The MVME2400 series may have different model variations with varying memory capacities (e.g., MVME2400-0331 with 64 MB SDRAM). Refer to specific model numbers or datasheets for detailed specifications.
Newer processor modules generally offer improved processing power, memory capacity, and communication capabilities compared to the MVME2400.
I hope this explanation clarifies the functionalities and considerations for the Motorola MVME2400. Feel free to ask if you have any further questions about VMEbus systems or industrial processor modules.
Datasheets or User Manuals: Locating official datasheets or user manuals might be challenging due to the product’s age. However, searching online archives or contacting Motorola/NXP support (slim chance of success with a discontinued product) might yield some results.
Replacements: If you’re looking to replace a faulty MVME-5101-0131, it might be difficult to find the exact model. However, depending on your application requirements, you can explore modern embedded computing modules with similar functionalities.
Considerations for Replacements:
System Compatibility: Ensure the replacement module is compatible with your existing VMEbus backplane and other system components. Upgrading the entire system to a newer architecture might be necessary in some cases.
Functional Needs: Identify the processing power, memory capacity, and communication interfaces required for your application. Choose a replacement that meets or exceeds these specifications.
