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Manfredi, Luigi
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (7/7 displayed)
- 2023Editorial
- 2022Future Trendscitations
- 2018Design of a 2 DOFs Mini Hollow Joint Actuated with SMA Wirescitations
- 2017Low power consumption mini rotary actuator with SMA wirescitations
- 2016Analysis of performance and energy efficiency of thin shape memory alloy wire-based actuators
- 2016A variable impedance actuator using shape memory alloy
- 2015Complaint actuator
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article
Low power consumption mini rotary actuator with SMA wires
Abstract
Shape memory alloys (SMAs) are smart materials widely used as actuators for their high power to weight ratio despite their well-known low energy efficiency and limited mechanical bandwidth. For robotic applications, SMAs exhibit limitations due to high power consumption and limited stroke, varying from 4% to 7% of the total length. Hysteresis, during the contraction and extension cycle, requires a complex control algorithm. On the positive side, the small size and low weight are eminently suited for the design of mini actuators for robotic platforms. This paper describes the design and construction of a light weight and low power consuming mini rotary actuator (MiRA) with on-board contact-less position and force sensors. The design is specifically intended to reduce i) energy consumption, ii) dimensions of the sensory system, and iii) provide a simple control without any need for SMA characterisation. The torque produced is controlled by on-board force sensors. Experiments were performed to investigate the energy consumption and performance (step and sinusoidal angle profiles with a frequency varying from 0.5Hz to 10Hz and maximal amplitude of 15◦). We describe a transient capacitor effect related to the SMA wires during the sinusoidal profile when the active SMA wire is powered and the antagonist one switched-off, resulting in a transient current time varying from 300ms to 400ms.