Predictor-Based Current Limitation Method for a DC Motor-Actuated Upper-Limb Rehabilitation Exoskeleton

Current limitation is crucial to protect DC motors from overheating in overload situations. This consideration is more critical in applications that involve the movement of variable loads, such as exoskeleton applications, where there exists dynamic human-robot interaction. This work presents a soft...

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Published in	IEEE access Vol. 10; pp. 81684 - 81698
Main Authors	Pont-Esteban, David, Sanchez-Uran, Miguel Angel, Contreras-Gonzalez, Aldo Francisco, Ferre, Manuel
Format	Journal Article
Language	English
Published	Piscataway IEEE 2022 The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects	Algorithms Brushless DC motors Current limiters D C motors DC motors Electric motors embedded software Exoskeletons Hardware Human engineering Hysteresis motors Overheating Predictive models Rehabilitation rehabilitation robotics Robots Torque
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Abstract	Current limitation is crucial to protect DC motors from overheating in overload situations. This consideration is more critical in applications that involve the movement of variable loads, such as exoskeleton applications, where there exists dynamic human-robot interaction. This work presents a software current limitation method based on a continuous DC motor model predictor. By predicting, according to the motor model, the voltages that would make the current match a threshold, the proposed method dynamically saturates the maximum voltages applicable to the motor to maintain the current under the predefined threshold. Using this method, a full-time current limitation can be obtained, but if desired, it also allows current peaks of configurable duration. Only motor parameters need to be known for the application of this algorithm, and it is easily adjustable to different DC motor models. Stand-alone motor tests show an effective limitation of current, achieving up to a 98.04% of maximum current when limited. The method has also been successfully validated in a rehabilitation exoskeleton application with four participants, obtaining an average current of 92.34% of current threshold when limited.
AbstractList	Current limitation is crucial to protect DC motors from overheating in overload situations. This consideration is more critical in applications that involve the movement of variable loads, such as exoskeleton applications, where there exists dynamic human-robot interaction. This work presents a software current limitation method based on a continuous DC motor model predictor. By predicting, according to the motor model, the voltages that would make the current match a threshold, the proposed method dynamically saturates the maximum voltages applicable to the motor to maintain the current under the predefined threshold. Using this method, a full-time current limitation can be obtained, but if desired, it also allows current peaks of configurable duration. Only motor parameters need to be known for the application of this algorithm, and it is easily adjustable to different DC motor models. Stand-alone motor tests show an effective limitation of current, achieving up to a 98.04% of maximum current when limited. The method has also been successfully validated in a rehabilitation exoskeleton application with four participants, obtaining an average current of 92.34% of current threshold when limited.
Author	Pont-Esteban, David Sanchez-Uran, Miguel Angel Ferre, Manuel Contreras-Gonzalez, Aldo Francisco
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SubjectTerms	Algorithms Brushless DC motors Current limiters D C motors DC motors Electric motors embedded software Exoskeletons Hardware Human engineering Hysteresis motors Overheating Predictive models Rehabilitation rehabilitation robotics Robots Torque
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Title	Predictor-Based Current Limitation Method for a DC Motor-Actuated Upper-Limb Rehabilitation Exoskeleton
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