The following resources can provide more details on the Woodward 9907-838:
Woodward Website: The Woodward website offers product information for the 9907-838, including [link woodward 9907 838 ON woodward.com]. This page details the product specifications, features, and functionalities.
Industrial Parts Suppliers: Several suppliers sell this load sharing module [supplier 1], [supplier 2], [supplier 3] (similar to previous searches, I cannot share URLs but searching the part number should lead you to product pages). These pages might offer additional technical specifications or application examples.
Overall, the Woodward 9907-838 plays a crucial role in ensuring efficient and reliable power generation by managing the load distribution between parallel generators in industrial settings.
While a specific datasheet for the GE UR8HH might be difficult to find publicly, here are some resources to learn more about its functionalities and applications:
Industrial Parts Suppliers: Several suppliers sell this relay [supplier 1], [supplier 2], [supplier 3] (similar to previous searches, I cannot share URLs but searching the part number should lead you to product pages). These pages might offer details on:
Specifications like voltage and current ratings, supported protection functions.
Compatibility with other GE power system equipment.
GE Website: Search the GE website (specifically the GE Grid Solutions section) for application notes or white papers related to industrial power protection relays. Look for terms like “GE industrial relays for protection” or “GE UR series relays applications”. These documents might provide general information on the functionalities of GE’s numerical relay range, which could be applicable to the UR8HH.
Availability: Finding new units of the MVME162-10 might be difficult due to its age. Consider using online parts suppliers or marketplaces for used equipment, but be aware of potential limitations.
Modern Alternatives: Several manufacturers offer modern embedded controllers with significantly improved processing power, memory capacity, communication options, and feature sets. Look for options compatible with your existing hardware and software (if applicable) and application requirements.
Project Requirements: Consider what you need the embedded controller for. If you’re prototyping or learning about embedded systems, the MVME162-10 might be a suitable option if you can find a functional unit at a reasonable price. However, for modern industrial automation applications, a more powerful and up-to-date embedded controller is likely a better choice.
Processor: Likely equipped with a Motorola MC68040 or MC68LC040 microprocessor. These 32-bit processors offered significant processing power compared to earlier 16-bit models used in previous versions. The clock speed is estimated to be in the 25-33 MHz range.
Memory: Supported higher memory capacities compared to its predecessors, potentially ranging from 4MB to 16MB of SDRAM for program and data storage.
I/O Capabilities: Provided various input/output (I/O) functionalities for connecting to industrial automation devices:
Serial ports for communication with other devices.
Limited Availability: Finding replacement parts or compatible peripherals for the MVME2301-900 might be difficult or expensive.
Outdated Technology: Ethernet networking capabilities have significantly advanced since the MVME2301-900’s introduction. Modern industrial automation systems likely use more advanced network interface cards with higher speeds and features.
Limited Software Support: Finding compatible software drivers for the MVME2301-900 in modern operating systems can be challenging.
Upgrading to a more modern VMEbus-compatible Ethernet card or migrating to a completely new system based on modern standards like CompactPCI or PC/104 with more advanced network interface cards is recommended for new industrial automation projects. These options offer improved performance, wider availability, and better long-term support.
Additional Notes:
The MVME2301-900 is sometimes described as an Ethernet card module in online listings. This aligns with its assumed function as a network interface board.
If you’re using an existing VMEbus system and require a compatible Ethernet card, searching for used or surplus MVME2301-900 stock might be an option, but ensure compatibility and functionality before purchasing. However, consider the limitations mentioned above compared to modern options.
The Motorola CPCI-6020TM represents an older technology within the CompactPCI domain. Here are some points to consider, especially for new industrial automation projects:
Limited Availability: Finding replacement parts or compatible peripherals for the CPCI-6020TM might be difficult or expensive.
Outdated Technology: The processing power and memory capabilities of the CPCI-6020TM might be insufficient for demanding modern industrial automation applications.
Limited Software Support: Finding compatible and supported operating systems for the CPCI-6020TM can be challenging.
While CompactPCI is a more recent standard than VMEbus, newer industrial automation systems might utilize more advanced CompactPCI boards based on current processor architectures and offer better performance, wider availability, and longer-term support.
Additional Considerations:
Upgrading to a more modern CompactPCI SBC or migrating to a completely new system based on even newer standards like VPX (VITA Platform Express) might be a better option for new projects depending on your specific requirements.
If you’re using an existing CompactPCI system and need to replace a faulty CPCI-6020TM, searching for used or surplus stock might be an option, but ensure compatibility and functionality before purchasing.
Outdated Technology: The processing power and memory capabilities of the MVME162-023A might be insufficient for demanding modern industrial automation applications.
Limited Software Support: Finding compatible and supported operating systems for the MVME162-023A can be challenging.
Upgrading to a more modern SBC platform based on current processor architectures like ARM or x86 is recommended for new industrial automation projects. VMEbus-compatible options exist, but migrating to a completely new system based on modern standards like CompactPCI or PC/104 might be a better choice in most cases, offering improved performance, wider availability, and better long-term support.
Additional Notes:
The online marketplaces listing the MVME162-023A sometimes mention it as a “processor board.” This is a generic term and doesn’t necessarily reveal specific functionalities.
If you’re unsure about the MVME162-023A’s compatibility with your existing VMEbus system or require its specific features for your application, consulting with a qualified industrial automation specialist is recommended.
Motorola MVME117A was used in various industrial automation applications, including:
Machine control systems
Data acquisition and monitoring systems
Robotics control
Industrial process control
Finding Information:
The MVME117A is an older product, and Motorola no longer produces it. However, you can find information about it through the following resources:
Online Resources: Search engines might lead you to datasheets, user manuals, or forum discussions about the MVME117A. Be cautious and ensure the information comes from reputable sources. Some websites like
Machine control systems with complex motion control requirements.
Robotics control systems.
Data acquisition and monitoring systems handling large datasets.
Industrial process control systems requiring higher processing power.
Finding Information:
While Motorola no longer produces the MVME162-012, you can find information about it through the following resources:
Online Resources: Search engines might lead you to datasheets (potentially user-uploaded content), user manuals, or forum discussions about the MVME162-012. Be cautious about the information’s accuracy and ensure it comes from reputable sources.
While the core functionalities are likely as mentioned above, specific details and capabilities can vary depending on the model variant of the MX-CS100-401. Here are some resources to help you find more information:
Schneider Electric Website:
Search the Schneider Electric website for the MX-CS100-401 product page using its code. If available, you should find a datasheet or user manual with comprehensive details such as:
While the CF card slot offers storage flexibility, consider the compatibility of the MX213/CF model with specific CF card types and capacities.
If you require a new system, explore newer CPU modules from Bachmann or other industrial automation manufacturers. They might offer improved processing power, memory options, storage technologies (e.g., solid-state drives), and communication features.
Overall:
The Bachmann MX213/CF provided additional storage flexibility for the MX200 system in industrial automation applications. While finding current information or new units might be challenging, the details provided should give you a good understanding of its functionalities. If you need a new system, explore more recent alternatives in the industrial automation market.
Information on the MX213 might be available on archive websites or forums. However, critically evaluate the information’s source, date, and relevance to your specific needs:
General MX213 information might be found on electronics component distributor websites or archive repositories.
Alternatives:
Consider exploring newer generation CPU modules from Bachmann or other industrial automation manufacturers like Siemens, Beckhoff, or B&R Automation if you require a new system. These might offer improved processing power, memory capacity, and communication features.
Overall:
The Bachmann MX213 was a capable CPU module for industrial automation applications. While locating current information or new units might be challenging, the provided details should give you a good understanding of its functionalities and potential uses. If you require a new system, explore more recent alternatives in the industrial automation market.
The information on these third-party websites might not be specific to your exact model variant.
Always refer to reliable sources from Schneider Electric for accurate details and ensure compatibility before making any purchasing decisions.
By using these suggestions, you should be able to find the specific information you need about the Schneider Electric MX-CS100-401 and its functionalities within your industrial automation application.
While the MVME7100-0171 was a capable industrial SBC, newer and more efficient VMEbus SBCs or industrial computers might be available from other manufacturers like Siemens, Kontron, or Advantech.
If you require a new system, explore these alternative options considering factors like compatibility with your existing setup and required features.
