DLR Portal
Home|Impressum|Sitemap|Kontakt |English
Sie sind hier: Home:Forschung:Mechatronic devices
Erweiterte Suche
Robotik und Mechatronik Zentrum
Institut für Robotik und Mechatronik
Institut für Systemdynamik und Regelungstechnik
Institut für Optische Sensorsysteme
Aktuelles
Mitarbeiter
Forschung
Rollin' Justin
Hand-Arm-System
Leichtbau-Roboter
Hände
Legged Robots
3D Modellierer
Medical Robotics
Mechatronic devices
Kraftreflektierender Joystick
Miniatur Kraft - Drehmomenten Sensoren
Linear Drive Cylinder
SpaceMouse
Biomimetic Robotics and Machine Learning
Telepresence & VR
Vision
Space Robotics
Flying Robots
Demonstrators
Flugzeug-Systemdynamik
Automotive
Railway Systems
Control Methods & Tools
Industrial Robot Control
Multikopter
Ausgründungen
Veröffentlichungen
Stellenangebote
Bildergalerie
Anreise
Kooperationen und Projekte
VersendenDrucken

Light-weight actuator and drive systems



The motor concept

Both the DLR-gripper and the joint drives of our light-weight robot make use of the same motor concept based on our own redesign of commercially available two-phase stepping motors of the ESCAP type. These motors were basically attractive for our light-weight goals because they show up

  • very low rotor inertia (flat disc)
  • small size, low weight (1,5 N) but relatively high torque (0,33 Nm), the rotor permanent magnets being integrated into a rare earth disc with large pdiameter
  • high positioning accuracy (25 pole pairs).

All modern robot control approaches are based on commanding joint torques. Due to friction etc. this is not feasible with standard robots today. Thus we have developed an inductive torque-measurement system that may be seen as an integral part of the gearing system. The implementation of appropriate nonlinear joint torque feedback laws is in preparation.
 
Verwandte Themen im DLR
Kybernetik, künstliche Intelligenz und Robotik
Copyright © 2013 Deutsches Zentrum für Luft- und Raumfahrt e.V. (DLR). Alle Rechte vorbehalten.