SGMGH-11A2C3D Original Yaskawa Motor for high precision machine tool SGMGH-11A2C3D
Yaskawa SGMGH-11A2C3D: A Benchmark in Precision Motor Technology
Introducing the Yaskawa SGMGH-11A2C3D, a superior servo motor specifically engineered for high precision machine tool applications. Designed to bolster the performance of advanced machinery, this model represents Yaskawa’s commitment to excellence in innovative motor solutions. With its impressive specifications and cutting-edge features, it paves the way for high-tech environments demanding accuracy and efficiency.
Product Information and Technical Parameters
| Brand | Name | Model | Rated Speed | Power | Power Supply Voltage | Encoder Type |
|---|---|---|---|---|---|---|
| Yaskawa | Motor for High Precision Machine Tool | SGMGH-11A2C3D | 1500 r/min | 11 kW | Three Phase AC 200V | 17-bit Absolute Value |
Innovative Features
This servo motor is designed with a range of key features to optimize user experience and operational efficiency:
- Simplified Maintenance: Complete separation of the main circuit and control circuit ensures easy maintenance, with alarms requiring only the main circuit power supply to be turned off.
- Easier Parameter Settings: Directly input parameters through the servo drive body, reducing wiring complexity by half with a serial encoder.
- Multi-Function Control: Utilize switchable parameters for torque, position, and speed control without needing a separate torque module.
Advanced Control and Efficiency
Equipped with INDEXER functional capabilities, the SGMGH-11A2C3D can seamlessly connect via an intuitive I/O module to the upper controller. Designed for optimal positioning operations, it supports up to 256 programmable points, making it a versatile addition to your automation toolkit. Included features facilitate rapid high-speed movements and precision adjustments, ensuring any application achieves peak performance.
High-Performance Complementary Units
With an operational alignment to Yaskawa’s advanced V series, the SGMGH-11A2C3D integrates effortlessly into dynamic environments, enabling motion control without a dedicated motion controller. Lauded for its reliability, stability, and minimal vibration during operations, it represents a harmonious blend of technology and functionality.
