ABB 3AXD50000312351 ACS880 Drive - 1400kW IN:2016A
Part Number: 3AXD50000312351
Quick Summary
ABB ACS880 drive optimizes motor control for heavy industry automation and machine-building applications. If you struggle with energy waste, unpredictable downtime, or integrating drives with your PLC and SCADA systems, this solution helps. Common certifications include CE compliance, UL listing for select markets, and optioned IP-rated enclosures for harsh environments. By delivering precise speed control, built-in safety features, and scalable performance, the drive supports energy efficiency, reduced maintenance, and simplified procurement for large projects in process, water treatment, and material handling. For procurement and engineering teams, it translates to faster commissioning, better lifecycle cost, and predictable performance across regional variants.
Product Information
High-power control and modular design enable direct operation of large motors up to 1400 kW, reducing system complexity and panel footprint. This translates into lower installation costs and faster commissioning on site, especially in crushers, pumps, and material-handling conveyors. Energy-efficient vector control and precise ramping optimize motor speed without sacrificing performance, cutting energy consumption and extending equipment life. In manufacturing lines and process plants, the result is meaningful energy savings and more stable process control. Flexible communication and network compatibility support PROFINET, EtherNet/IP, Modbus TCP, and PROFIBUS, simplifying integration with existing PLCs and SCADA. This minimizes wiring changes, improves diagnostics, and accelerates debugging during commissioning. Built-in safety and reliability features help meet industrial safety requirements while reducing maintenance overhead. Integrated monitoring, fault logging, and safe-stop capabilities support safer operation and faster fault resolution. Installation and service advantages include panel-friendly sizing, plug-and-play option cards, and remote diagnostics. Operators benefit from quicker replacements, better spare-part planning, and lower total cost of ownership. The solution also aligns with relevant IEC standards, RoHS compliance, and configurable enclosure options for diverse industrial environments.
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FAQs
Begin with verifying voltage and current ratings, confirm motor compatibility (three-phase, up to 1400 kW), and ensure adequate enclosure space. Mount the drive in a suitable cabinet, connect shielded cables for power and control, then configure basic parameters via the drive manager. Use standardized wiring for PLC integration and validate protective earth continuity before commissioning.
The drive supports a 1400 kW output with IN:2016A configuration. It provides precise speed regulation through vector control, programmable ramp rates, and fault protection. It offers multi-protocol communication options and diagnostics to support high-load processes such as pumps, fans, and conveyors, with scalable performance for varying load profiles.
Yes. The ACS880 family is designed for demanding applications with high inertia. Its advanced speed control, ramping, and vector control minimize torque fluctuations, improve process stability, and reduce mechanical stress on belts, pulleys, and couplings. It is particularly effective in continuous-process environments where precise speed and torque management are critical.
The drive is typically CE compliant and UL-listed for selected markets, with enclosure options that support IP-rated protection suitable for harsh environments. Certifications and regional approvals can vary by configuration, so confirm exact specifications for your region and installation site to ensure regulatory alignment.
The ACS880 offers built-in diagnostics, fault logging, and remote monitoring that simplify preventive maintenance and reduce downtime. Energy-efficient control lowers operating costs, while modular design and standard interfaces shorten commissioning and spare-part planning, delivering a favorable total cost of ownership over the system lifecycle.