Journal ArticleDOI
Concomitant sensing and actuation for piezoelectric microrobots
TLDR
In this paper, a technique for estimating the velocity of bending bimorph actuators, a popular choice for driving such micro-scale devices, that requires simple electronics and no additional mechanical components is presented.Abstract:
Sensor fabrication for microrobots is challenging due to their small size and low mass. As a potential solution, we present a technique for estimating the velocity of piezoelectric bending bimorph actuators, a popular choice for driving such microscale devices, that requires simple electronics and no additional mechanical components. Our approach relies on the insight that motion of the actuators causes varying strains on the surface on the piezoelectric material, which via the direct piezoelectric effect, results in a current proportional to the actuator velocity. We propose that the actuator be electrically approximated as a parallel combination of a frequency and voltage dependent resistor and capacitor, and a velocity proportional current source. We develop an experimental procedure to measure these quantities, and are able to experimentally determine the actuator tip velocity to within 10% accuracy over a range of voltages (25–200 V) and frequencies (1–2000 Hz, well beyond actuator resonance). We successfully apply this sensing methodology to two microrobots, the RoboBee and the Harvard Ambulatory MicroRobot (HAMR), to estimate the wing and limb motion respectively. We further use sensor feedback to close the loop on HAMR's leg phase and obtain desired leg trajectories near transmission resonance. The proposed sensor methodology is generic and can be applied to piezoelectric actuators of different geometries and configurations for uses in microrobotic applications.read more
Citations
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Journal ArticleDOI
Controlled flight of a microrobot powered by soft artificial muscles
Yufeng Chen,Yufeng Chen,Yufeng Chen,Huichan Zhao,Jie Mao,Jie Mao,Pakpong Chirarattananon,E. Farrell Helbling,E. Farrell Helbling,Nak-seung Patrick Hyun,Nak-seung Patrick Hyun,David R. Clarke,Robert J. Wood,Robert J. Wood +13 more
TL;DR: Heavier-than-air insect-scale aerial robots powered by soft artificial muscles can hover and also recover from in-flight collisions, illustrating the potential for developing next-generation agile soft robots.
Journal ArticleDOI
Untethered flight of an insect-sized flapping-wing microscale aerial vehicle
Noah T. Jafferis,Noah T. Jafferis,E. Farrell Helbling,E. Farrell Helbling,Michael Karpelson,Robert J. Wood,Robert J. Wood +6 more
TL;DR: This insect-scale aerial vehicle is the lightest thus far to achieve sustained untethered flight (as opposed to impulsive jumping8 or liftoff) and matches the thrust efficiency of similarly sized insects such as bees.
Journal ArticleDOI
Materials as Machines
TL;DR: This review summarizes the material transformation mechanisms, mechanical design, and robotic integration of responsive materials including shape memory alloys, piezoelectrics, dielectric elastomer actuators, ionic electroactive polymers, pneumatics and hydraulics systems, shape memory polymers (SMPs), hydrogels, and liquid crystalline elastomers (LCEs) and networks.
Journal ArticleDOI
Inverted and vertical climbing of a quadrupedal microrobot using electroadhesion.
TL;DR: It is shown that HAMR-E is capable of achieving open-loop, inverted locomotion inside a curved portion of a commercial jet engine, demonstrating its potential for industrial applications, such as in situ inspection of high-value assets.
Journal ArticleDOI
A self-adapting linear inchworm piezoelectric actuator based on a permanent magnets clamping structure
TL;DR: In this article, a self-adapting structure is proposed to match the driving and clamping signals of piezoelectric inchworm actuators, which can achieve stable motion by matching the clamping force controlled by rotating permanent magnets and the driving force generated by the stack.
References
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A Survey of Control Issues in Nanopositioning
TL;DR: This paper presents an overview of nanopositioning technologies and devices emphasizing the key role of advanced control techniques in improving precision, accuracy, and speed of operation of these systems.
Journal ArticleDOI
Controlled Flight of a Biologically Inspired, Insect-Scale Robot
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A Self-Sensing Piezoelectric Actuator for Collocated Control:
TL;DR: In this paper, a technique has been developed which allows a single piece of piezoelec tric material to concurrently sense and actuate in a closed-loop system.
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Optimal energy density piezoelectric bending actuators
TL;DR: In this paper, a laminate plate theory model for a stacked multimorph cantilever actuator, encompassing all possible layups, layer anisotropies, internal and external excitations, and intrinsic and extrinsic geometries, is presented.
Journal ArticleDOI
Driving high voltage piezoelectric actuators in microrobotic applications
TL;DR: In this article, the authors describe electrical characteristics and drive requirements of low mass piezoelectric actuators, the design and optimization of suitable drive circuit topologies, aspects of the physical instantiation of these topologies including the fabrication of extremely lightweight magnetic components, and a custom, ultra low power integrated circuit that implements control functionality for the drive circuits.