Shaft Torque Limiting Control Using Shaft Torque Compensator for Two-Inertia Elastic System With Backlash
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TLDR
In this article, a shaft torque compensator is proposed, which can make the system similar to a rigid system with one inertia, making the system relatively safe under any situation with different load inertias and torques.Abstract:
This paper aims to present a solution for torsional vibration suppression and shaft torque limitation simultaneously in servo system with backlash The existence of backlash, which would make conventional notch filter invalid, will aggravate the mechanical vibration and bring the risk of unsafety to the system In order to solve that problem, a novel shaft torque compensator is proposed, which would make the system similar to a rigid system with one inertia What is more, this compensator can limit shaft torque as expected, making the system relatively safe under any situation with different load inertias and torques The limiting control is based on the adaptive online identification of load inertia in order to improve robustness of the system and ensure not only the accuracy, but also the arbitrariness of shaft torque limit Simulation and experimental results are presented to illustrate the favorable behavior of the drive with the robust shaft torque compensatorread more
Citations
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References
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Controlling mechanical systems with backlash-a survey
Mattias Nordin,Per-Olof Gutman +1 more
TL;DR: This survey reveals that surprisingly few control innovations have been presented since the early path breaking papers that introduced the describing function analysis of systems with backlash.
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Adaptive Robust Control of DC Motors With Extended State Observer
TL;DR: In this paper, a practical method named adaptive robust control with extended state observer (ESO) is synthesized for high-accuracy motion control of a dc motor via a feedforward cancellation technique and theoretically guarantees a prescribed tracking performance in the presence of various uncertainties.
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Vibration Suppression in a Two-Mass Drive System Using PI Speed Controller and Additional Feedbacks—Comparative Study
TL;DR: It is shown that all systems with one additional feedback can be divided into three different groups, according to their dynamical characteristics, and the system with two additional feedbacks is investigated.
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Slow resonance ratio control for vibration suppression and disturbance rejection in torsional system
TL;DR: The authors give the optimal speed of the disturbance observer and propose a novel technique named "slow resonance ratio control", which enables us to design the speed control and the vibration suppression control almost completely independently.
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Stability and Robustness of Disturbance-Observer-Based Motion Control Systems
Emre Sariyildiz,Kouhei Ohnishi +1 more
TL;DR: Novel and practical design methods, which improve the robustness of a DOB and the stability and performance of an RTOB-based robust force control system, are proposed by using the new analysis methods.