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Is production demand pushing your cobot design to its performance limit? Do rigorous operation requirements cause overheating? Would you like to design a cobot with no compromises to performance or cycle time? Join us to learn what design considerations can deliver higher payloads with faster speed and improved operation cycle times. You’ll learn how to:

  • Balance common decision points encountered when designing a collaborative robotic joint
    • Torque density and size
    • Velocity and torque
    • Temperature and performance
  • Improve performance through optimized motor design
  • Minimize tradeoffs and maximize performance with a newly released motor series from Kollmorgen
Kollmorgen, How to Design Collaborative Robots to Improve Cycle Time

About the Presenter(s)

Tom S Wood
Tom S. Wood

Tom S. Wood, a 35+ year veteran in high-performance motion, has integrated motion control solutions as a machine designer, manufacturer’s representative, High-Tech distributor, and as a Kollmorgen Motion Control Product Specialist. He has extensive experience designing next-generation motion systems for the aerospace and defense industry as well as for robotics applications that improve everything from workplace safety to patient mobility. Tom enjoys helping engineers understand how to enhance their projects through frameless technology that delivers high performance in a compact form.