Maximum Dynamic Brushless Servo Motor
HIGH DYNAMICS FOR MORE PRODUCTION IN HIGH PERFORMANCE APPLICATIONS
Several machines across industries (such as injection molding machines) need to achieve very short acceleration and deceleration times. Traditional electric machine systems have limitations in acceleration and speed caused by the high inertia of their moving parts.
Moog Maximum Dynamic Brushless Servo Motors (MD Series) address the evolving need for greater dynamics through increased angular acceleration (ratio between peak torque and inertia) and higher performance in industrial applications. The electromagnetic design has exceptional overload capacity which result is an increase in the effective torque available to accelerate and decelerate the load, thereby enabling higher dynamics and reliability and improved cycle times and energy efficiency.
The wide range of MD series motors, combined with the ability to seamlessly integrate with existing infrastructure, reduces the need for redesign, limits cost and improves space utilization.
Moog also provides Servo Drives that are matched to the MD Series motors for optimized system performance.
- Faster operation, higher performance
- Increased productivity
- Improved product quality through accurate control
Wide Servo Motor Range
- Consistent modular design and characteristics for the full range of servo motors
- Accelerated machine design process resulting from a wide range of readily available options
- Seamless integration into existing infrastructure
- Lesser need for redesign, lesser costs
|Peak Torque Mmax
|Continuous Stall Torque M°
|Rated Torque MN
|Rated Speed nN
|Rated Power PN
|Moment of Inertia J
[lb-insec2 x 10-4]
Motor Product Selector
Moog Industrial Group announced today that Unison, a global technology company delivering all-electric tube bending machine in sectors as diverse as aerospace, marine, automotive and manufacturing, selected Moog Brushless Servo Motors and Planetary Roller Screws for a new order to sustain its rapidly expanding business needs. Keep Reading