Showing 1713–1728 of 37357 results

ABB TU811V1

The TU811V1 is specifically used within the ABB S800 I/O system for industrial automation applications. It doesn’t directly interact with sensors or actuators but plays a crucial role in enabling communication between the S800 controller and various I/O modules like:

  • Digital input/output modules
  • Analog input/output modules
  • Specialty modules for temperature, pressure, or other signal types

ABB PFTL101B 5.0KN

The PFTL101B 5.0KN finds use in various industrial automation scenarios requiring precise 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,

ABB TU810V1

While ABB might not actively promote the TU810V1 anymore, here are some resources you can explore:

  • ABB Website: Search for “TU810V1” or the product code on the ABB website You might find resources or links to archived product information for the MTU, although it might be limited.
  • Technical Documentation: Look for resources like user manuals or datasheets for the S800 I/O system or the ModuleBus. These documents might mention the TU810V1 and its role within the system. You can try searching ABB’s website or contacting their support for these documents.
  • Industrial Automation Parts Suppliers: Look for websites of industrial automation parts suppliers who might stock the TU810V1 or similar MTUs for the S800 system. They might have datasheets or specifications available, although

MVME162-13 MOTOROLA

  • Processor: Likely based on the Motorola 68040 microprocessor (or possibly the 68LC040 variant) with a clock speed of around 25 MHz (based on online listings and similar MVME models).
  • Memory: Potentially offers 1MB, 4MB, or 8MB of RAM (depending on the specific model variant).
  • VMEbus Compatibility: The “MVME” prefix suggests compatibility with Motorola’s VMEbus (Versa Module Eurocard bus) systems, widely used for industrial automation applications in the past.

MVME162-10 MOTOROLA

  • 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.

PROFACE PFXSP5B41

Alternatives:

  • New SP5000 Series HMIs: PROFACE likely offers newer models within the SP5000 Series with potentially improved features, wider availability, and full warranties. Consider exploring these options on the PROFACE website or through authorized distributors.
  • Alternative HMI Models: Other manufacturers offer HMI displays in various sizes and with different functionalities. Look for options compatible with your control system and application requirements.

Additional Notes:

If you’re looking for a specific HMI display for your project, searching by display size, touchscreen technology (resistive or capacitive), and desired features (data visualization, communication protocols) might be more helpful than focusing on the PFXSP5B41 enclosure itself.

PROFACE PFXGP4502WADW

The PFXGP4502WADW could be used in various industrial automation settings for operator control and monitoring, such as:

  • Machine control panels: Providing an interface for operating and monitoring factory machines, robots, or assembly lines.
  • Building automation systems: Controlling and monitoring HVAC systems, lighting, or security systems in commercial buildings.
  • Process control applications: Monitoring and controlling processes in industries like food and beverage, chemical, or oil and gas.

PROFACE PFXG4401TAD

  • Display: 7.5-inch TFT LCD touchscreen (likely with a resolution of 640 x 480 pixels, but a datasheet would confirm this).
  • Touchscreen Technology: Resistive or capacitive touchscreen (datasheet or user manual would specify).
  • Communication Ports: Likely includes common industrial communication ports like RS-232 or Ethernet for connecting to PLCs (Programmable Logic Controllers) or other control systems.
  • Software: The HMI might require specific software for configuration and development of the user interface elements.

ABB PFVI401 3BSE018732R1

  • Robotic arms and manipulators: Precise control of motor speed and torque for accurate positioning and movement.
  • Conveyor systems: Maintaining consistent speed and handling variable loads on conveyor belts.
  • Textile machinery: Precise control of motor speed in applications like yarn spinning or weaving.
  • Machine tools and CNC systems: Regulating motor speed and torque for high-precision machining operations.

ABB PFVL141C

  • The PFVL141C series load cells are designed to measure tension or compression forces within their capacity applied in a ring-shaped manner around the cell’s body. They convert the applied force into a measurable electrical signal for use by a control system.

Capacity (Limited information available):

  • Specific capacity information for the PFVL141C series might be difficult to determine without the complete model number. ABB offers various models within the PFVL141C series with potentially different capacities. You might see suffixes like “-2.5MN” or “-3.1MN” after the series name, indicating the capacity in Meganewton

ABB PFTL301E 1.0 KN

  • 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 PFTL201C 20KN

Due to its high-force capacity, the ABB PFTL201C 20KN could be used in various industrial automation scenarios involving high tension control, such as:

  • Wire and cable production: Monitoring and controlling tension during processes like wire drawing, spooling, or coiling.
  • Material testing: Measuring the tensile strength of materials like ropes, cables, or metal sheets.
  • Web tension control: Maintaining consistent tension in web materials like paper, textiles, or plastic films during processing or converting.
  • Lifting and hoisting: Monitoring tension in lifting slings or cables for safety and load management.

ABB PFTL301E 1.0KN

  • Capacity: 1.0kN (approximately 225 lbf)
  • Output: Likely provides an analog voltage output signal corresponding to the applied force. The specific voltage range and sensitivity will depend on the model variant, but a datasheet would provide this information.
  • Accuracy: Information on accuracy might be limited, but industrial load cells typically offer high accuracy within their specified range. You might find this in a datasheet for the PFTL301E series.
  • Material: The body is likely constructed from a durable metal like stainless steel to withstand industrial environments and mechanical stress.
  • Dimensions: Specific dimensions are difficult to find without a datasheet, but ABB offers various load cell designs, and the PFTL301E series is likely a compact design suitable for tight spaces in industrial automation setups.

ABB PFTL101BE

The PFTL101BE series could find 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.

ABB PFTL101B-5.0KN

The PFTL101B-5.0KN 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.

ABB PFTL101B-2.0KN 3BSE004185R1

  • 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.