SGMAH-A3AAA41 Original Yaskawa servo motor SGMAH-A3AAA41
Introducing the Yaskawa SGMAH-A3AAA41 Servo Motor
The Yaskawa SGMAH-A3AAA41 servo motor epitomizes cutting-edge technology in motion control, delivering optimal performance tailored for a wide array of applications. Engineered with precision and advanced control algorithms, this servo motor is designed to enhance production efficiency while offering user-friendly features for swift setup and maintenance. Embrace the future of automation with the reliability and quality that Yaskawa is renowned for.
Product Specification Overview
Feature | Details |
---|---|
Brand | Yaskawa |
Model | SGMAH-A3AAA41 |
Type | Servo Motor (SGMAH) |
Rated Speed | 3000 r/min |
Power Output | 30W |
Power Supply Voltage | Single Phase AC 200V |
Serial Encoder | 13 Bit Relative Value |
Design Sequence | A |
Shaft End | Straight Shaft with Key |
Optional Parts | No Brake Oil Seal |
Advanced Features
The Yaskawa SGMAH-A3AAA41 is at the forefront of servo motor technology, offering substantial improvements over its predecessors. With a remarkable reduction in CPU computing time—now featuring an impressive 50% decrease—this motor ensures faster reaction times and enhanced positioning accuracy, achieving optimal response in just one-third of the original positioning time. The innovative control algorithms streamline parameter setting and maintenance, empowering users with a high degree of system control in a reduced timeframe.
Versatile Applications
Widely employed in sectors such as semiconductor manufacturing, LCD production, electronic component packaging, machine tooling, and general machinery, the SGMAH-A3AAA41 serves as the linchpin of today’s automated systems. Originating from Japan, with production capabilities in both Shenyang and Shanghai, Yaskawa remains a leader in servo technology, having pioneered the mechatronics concept essential to modern industry.
Test Platform and Performance
Complementing the SGMAH-A3AAA41 is its versatile test platform, enabling mutual feedback between the servo driver and motor. This testing system, composed of three integral components—a servo driver-motor system, an inherent load system, and a host computer—facilitates precision performance testing. The host computer transmits speed command signals while concurrently collecting operational data for preservation, analysis, and display.
Conclusion
In summary, the Yaskawa SGMAH-A3AAA41 servo motor stands as a benchmark of reliability, efficiency, and innovation in automation technology. Its adaptability and advanced features make it an ideal choice for professionals seeking to elevate operational performance and ensure seamless control within their systems.