Showing 1729–1744 of 37357 results

ABB PFTL101B 20.0KN 3BSE0042003R1

Due to its high-force capacity, the ABB PFTL101B 20.0kN could be used in various industrial automation applications involving heavy loads, such as:

  • Metal forming and pressing: Measuring and controlling the force applied during processes like stamping, bending, or forging.
  • Material testing: Measuring tensile or compressive forces on materials.
  • Heavy machinery control: Monitoring and regulating forces in applications like presses, cranes, or material handling equipment.
  • Load weighing: Measuring the weight of heavy objects in industrial settings.

ABB PFTL101A1.0KN

For new industrial automation projects, exploring modern alternatives might be a better option due to potential limitations in availability and support for the ABB PFTL101A1.0KN. Modern load cells might offer:

  • Improved accuracy
  • Wider range of output signal options
  • Easier integration with modern control systems
  • More readily available technical support

However, if you need a replacement for an existing system using the PFTL101A1.0KN, the resources mentioned above can help you find compatible parts.

ABB PFTL101A-2.0KN

The ABB PFTL101A-2.0KN finds use in various industrial automation scenarios requiring force measurement and control within its capacity, such as:

  • Assembly line monitoring: Measuring the force applied during assembly processes to ensure proper component fit and avoid damage.
  • Robotics applications: Measuring gripper force or tool interaction forces with objects.
  • Material handling: Monitoring tension or weight in material handling processes that involve moderate forces, like wire feeding or cable coiling.
  • Force control systems: Providing feedback for control systems requiring precise force regulation in tasks like pressing, clamping, or insertion.

MOTOROLA MVME162-10

Alternatives and Considerations:

The MVME162-10 represents older technology. Here are some points to consider, especially for new industrial automation projects:

  • Limited Availability: Finding replacement parts or compatible peripherals for the MVME162-10 might be difficult or expensive.
  • Outdated Technology: The processing power, memory capabilities, and available I/O options of the MVME162-10 might be insufficient for demanding modern industrial automation applications.
  • Limited Software Support: Finding compatible and supported operating systems for the MVME162-10 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.

ABB PFTL101A 2.0KN

  • Availability: Finding new units might be limited. Consider contacting ABB for availability or potential replacements.
  • Modern Alternatives: Several manufacturers offer modern low-force load cells with potentially improved specifications, wider availability, and better long-term support. Look for 2.0kN capacity options and consider factors like:
    • Accuracy
    • Output signal type
    • Ease of integration with your control system

ABB PFTL101A 1.0KN

  • Assembly line monitoring: Measuring the force applied during assembly processes to ensure proper component fit and avoid damage.
  • Robotics applications: Measuring gripper force or tool interaction forces with objects.
  • Material handling: Monitoring tension or weight in material handling processes that involve moderate forces, like wire feeding or cable coiling.
  • Force control systems: Providing feedback for control systems requiring precise force regulation in tasks like pressing, clamping, or insertion.

ABB PFTL101A 0.5KN

  • Modern Alternatives: Several manufacturers offer modern low-force load cells with potentially improved specifications, wider availability, and better long-term support. Look for options with a 0.5kN capacity and consider factors like accuracy, output signal type, ease of integration with your control system, and dimensions to ensure compatibility with your application.

If you require a new low-force load cell for an industrial automation project, exploring modern alternatives might be a better option due to potential limitations in availability and support for the ABB PFTL101A 0.5kN. However, if you need a replacement for an existing system using the PFTL 101A 0.5kN, the resources mentioned above can help you find compatible parts.

ABB PFTL101A 2.0KN

Alternatives and Considerations:

  • Availability: Finding new units of the PFTL 101A 2.0kN might be limited depending on its production status. Consider contacting ABB directly to inquire about availability or potential replacements.
  • Modern Alternatives: Several manufacturers offer modern low-force load cells with potentially improved specifications, wider availability, and better long-term support. Look for options with a 2.0kN capacity and consider factors like accuracy, output signal type, ease of integration with your control system, and dimensions to ensure compatibility with your application.

If you require a new low-force load cell for an industrial automation project, exploring modern alternatives might be a better option due to potential limitations in availability and support for the ABB PFTL 101A 2.0kN. However, if you need a replacement for an existing system using the PFTL 101A 2.0kN, the resources mentioned above can help you find compatible parts.

MOTOROLA MVME2604 712I/O

You’ve definitely done your research on the Motorola MVME2604 712I/O! Here’s a summary of the key points we’ve discussed:

The MVME2604 712I/O: An Industrial Automation Workhorse (from the 1980s-1990s)

  • Function: A single-board computer (SBC) for VMEbus industrial control systems.
  • Processor: Likely a Motorola 68040 or 68LC040 (32-bit) with a clock speed in the 200-400 MHz range (depending on model).
  • Memory: Supported 16MB to 512MB of SDRAM for programs and data.
  • I/O Capabilities:
    • Onboard options likely included serial/parallel

ABB PFTL 101A 2.0KN 3BSE004172R1

  • Assembly line monitoring: Measuring the force applied during assembly processes to ensure proper component fit and avoid damage.
  • Robotics applications: Measuring gripper force or tool interaction forces with objects.
  • Material handling: Monitoring tension or weight in material handling processes like winding or feeding operations that involve moderate forces.
  • Force control systems: Providing feedback for control systems requiring precise force regulation in tasks like pressing, clamping, or insertion.

Finding Information:

  • ABB Website: While ABB might not actively promote the PFTL 101A series anymore, their website might offer resources or links to archived product information. Search for “PFTL 101A” or the product code (3BSE004172R1) on
  • Technical Documentation Websites: Websites specializing in technical documentation archives might have user manuals or datasheets for the PFTL 101A 2.0kN uploaded by userse cautious about the information’s accuracy and source on these platforms.
  • Online Marketplaces: Several online marketplaces list the ABB PFTL 101A 2.0kN for sale (previously found in our search results). These listings sometimes include part numbers or user manuals that can be a starting point for further searches. Be aware that these might be used products.

ABB PFSK151

  • Compatibility: Ensure the board is compatible with your existing control system and communication protocols.
  • Technical Specifications: Choose a board with the appropriate number of I/O channels, signal processing capabilities, and communication features for your application.
  • Support: Look for boards with readily available technical documentation, software support, and a reliable supplier for future maintenance or replacement needs.

In some cases, upgrading to a more modern signal processing board based on current technologies might be a better option for new projects compared to the potentially limited availability and support for the ABB PFSK151.

ABB PFSK152

If you require a signal processing board for a new industrial automation project, consider these points:

  • Compatibility: Ensure the board is compatible with your existing control system and communication protocols.
  • Technical Specifications: Choose a board with the appropriate number of I/O channels, signal processing capabilities, and communication features for your application.
  • Support: Look for boards with readily available technical documentation, software support, and a reliable supplier for future maintenance or replacement needs.

In some cases, upgrading to a more modern signal processing board based on current technologies might be a better option for new projects compared to the potentially limited availability and support for the ABB PFSK152.

MOTOROLA MVME162-210

  • 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.

MOTOROLA MVME2301-900

  • 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.

MOTOROLA CPCI-6020TM

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.

MOTOROLA MVME162-023A

  • 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.