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Unmanned aerial vehicle at high altitude

Your unmanned aerial vehicles can fly longer and farther, remaining on station for as long as needed to complete missions successfully. Learn how to specify motors optimized for the specific performance requirements and environmental conditions of each UAV application, including the positioning of flight-control surfaces, tracking systems, sensors, payload actuators and more.

Minimize motor size and weight while maximizing power to keep your aircraft design as light and aerodynamic as possible. Make sure that your motors can withstand the extremes of temperature, vibration and shock encountered in flight. Save time in your development process, then count on a consistent supply of motors manufactured to the highest quality standards throughout the life of your aircraft.

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Engineering Motion Systems for Space: A Guide to Reliability, Scalability and Mission Success

Move from terrestrial prototypes to mission success with a practical guide on evaluating space-ready motors and engineering spacecraft motion control.

Learn More

Technology vs. Topology: Designing Motion for Turrets and Large Azimuth Drive Systems

Learn how to select the right motion system topology for your ground vehicle platform and go from concept to combat success with Kollmorgen.

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Engineer the Exceptional

Learn how to engineer exceptional machines, robots and vehicles with the highest-performing, most reliable motors, drives, automation solutions and more.

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