ABB 3ABD00049404-D ACS880 Drive - Pn 500 kW
Part Number: 3ABD00049404-D
Quick Summary
ACS880 drive from ABB delivers precise position control for high-power automation across production lines. Engineers often grapple with tuning, integration bottlenecks, and inconsistent motion that lead to downtime and rejected parts. This module supports CE conformity and PLCopen-compatible motion blocks, reducing validation effort and enabling interoperability with both ABB and third-party motors and PLCs. Its parameter-based configuration, built-in diagnostics, and broad connectivity simplify commissioning and ongoing maintenance. By enabling scalable solutions for machinery and material handling, it delivers measurable business value through faster time-to-market, reduced downtime, and predictable performance as line requirements evolve.
Product Information
Extended Description
3ABD00049404-D ABB: The ACS880 drives which are configured with the positon control program (+N5700) is an ideal choice for high-power position control axes. Its motion functions are based on PLCopen motion control blocks and can be easily configured by parameters. Programming flexibility and connectivity to all motors and PLCs ensure optimized solutions for production machinery and material handling applications.
The centerpiece is the position control program (+N5700), which delivers deterministic motion through PLCopen motion control blocks. This translates to tighter tolerances, smoother accelerations, and reduced mechanical stress. It’s ideal for high-power axes in packaging lines, robotic pick-and-place, and material handling. Power capability is defined as Pn 500 kW with 880 A, supporting robust torque and throughput. The result is higher line throughput and fewer stops when driving heavy conveyors or hoists. This capability pairs with efficient motor control to lower energy consumption during peak loads. Parameter-based configuration and connectivity streamline commissioning, enabling rapid integration with existing motor and PLC ecosystems. Motion functions based on PLCopen blocks standardize programming across machines, reducing training needs and integration risk. Compatibility and installation advantages include standard wiring, cabinet-friendly form factors, and straightforward retrofits. Reliability features and diagnostics provide quick fault diagnosis, remote monitoring, and proactive maintenance prompts.
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FAQs
Begin with identifying the drive communications protocol and motor ratings, then map parameter sets in the ACS880 configuration tool. Connect the drive to the master PLC via the recommended fieldbus (such as EtherCAT or Modbus TCP), wire motor leads to the correct terminals, and configure safety features like Safe Torque Off. Enable the +N5700 position control module for precise axis tracking and verify encoder feedback to ensure reliable operation.
Key specs include a nominal power rating of 500 kW (Pn) and a maximum current of 880 A. The drive supports position control through the +N5700 program and PLCopen motion control blocks, enabling deterministic, repeatable motion. It interfaces with various motors and PLCs, providing scalable torque, smooth acceleration/deceleration, and robust protections for demanding axes.
Yes. The ACS880-04-880A-3+N5700 is designed for high-power position control axes used in material handling, conveyors, packaging lines, and robotic placement. Its PLCopen-based motion control and parameter-driven setup reduce commissioning time, while the 500 kW power rating supports heavy loads and fast cycle times critical to throughput improvements.
ABB drives commonly conform to CE safety and EMC standards and are designed for installation in compliant environments. Confirm local regulatory requirements with your compliance team, and reference manufacturer documentation for application-specific certifications and any regional approvals.
Expect lower lifecycle costs through longer motor life, reduced energy consumption during peak loads, and faster uptime thanks to diagnostics and remote monitoring. Routine maintenance includes periodic parameter backups, encoder feedback checks, and thermal monitoring. A well-tuned implementation with scheduled software updates and preventive checks yields a measurable return through increased throughput and reduced downtime.