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Magnetorheological Actuator for Haptic Applications
M.E. Busse-Grawitz, maxon advanced robotics and systems, Giswil, Switzerland
R. Pittini, maxon motor ag, Sachseln, Switzerland
R. Waldvogel, D. Martin,
maxon advanced robotics and systems, Giswil, Switzerland
Abstract:
Most present magnetorheological (MR) actuators suffer from two main drawbacks if applied to haptic drives: bulkiness and lacking speed of response. We present a novel actuator which overcomes these disadvantages, achieving response times of 3 ms at a torque of 9 Nm. Additionally, it offers virtually play free operation, extremely low active inertia and very graceful reaction to overload conditions. Achieving peak speeds above 300 rpm, this drive is well suited for parallel and serial robot architectures as well as for single axis actuators.
Introduction
If
ACTUATOR 2016 Manuscript C4.4
eBook
Pages: 3
Language: English
Publication date: 01/06/2016
Manuscript C4.4 published in Conference Proceedings ACTUATOR 2016
El vendedor asume toda la responsabilidad de esta entrada.
Hubert Borgmann, MESSE BREMEN,
Project Manager ACTUATOR, International Conference and Exhibition on New Actuators and Drive Systems, Bremen, Germany, and Editor of the ACTUATOR Conference Proceedings (www.actuator.de)
Project Manager ITHEC, International Conference and Exhibition on Thermoplastic Composites, Bremen, Germany, and Editor of the ITHEC Conference Proceedings (www.ithec.de)
Project Manager ACTUATOR, International Conference and Exhibition on New Actuators and Drive Systems, Bremen, Germany, and Editor of the ACTUATOR Conference Proceedings (www.actuator.de)
Project Manager ITHEC, International Conference and Exhibition on Thermoplastic Composites, Bremen, Germany, and Editor of the ITHEC Conference Proceedings (www.ithec.de)
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