Juan Padron, Yusuke Kawai, Y. Yokokura, Kiyoshi Ohishi, T. Miyazaki
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A Method for Gear Impact Suppression In Torsion Torque Control of Two-Inertia Systems with Backlash
Torsion torque control has been successfully applied in powertrains for automotive systems, and in robotics for improving the performance of load-side control and increasing backdrivability of robots. However its performance is severely compromised when backlash is present in the transmission, as the reengaging of the mechanical components causes a excessive impact torque in the system. Conventional gear impact suppression methods require the use of load-side encoders and backlash models, which could be costly and difficult to implement, particularly in robots. This paper proposes a gear impact suppression method based on a impact torque suppressor (ITS), which consists of scheduled torque-derivative-feedback directly to the joint torsional dynamics. The effectiveness of the proposed method is verified by simulation and experimental results.
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