Design, Modeling, and Initial Experiments on Microscale Amplification Device

Abstract: This article proposes the design of several microelectromechanical amplification devices formed of many identical microunits that are connected in a serial–parallel configuration, each being individually actuated and amplifying its own input motion. The microdevices realize the border-crossing from the micro-to the meso-scale displacement domain as they combine the micron-level individual inputs into millimeter-range output levels. The base structural unit is a flexure-based compliant device that is capable of… Show more

“…1) has the advantages of large amplification ratio and compact size. In the literature, the bridge-type amplifier has been investigated for both meso-and microscale applications [15][16][17][18][19][20]. However, a drawback of this bridge-type amplifier lies in that its lateral stiffness is relatively low.…”

Analytical modeling, optimization and testing of a compound bridge-type compliant displacement amplifier

“…1) has the advantages of large amplification ratio and compact size. In the literature, the bridge-type amplifier has been investigated for both meso-and microscale applications [15][16][17][18][19][20]. However, a drawback of this bridge-type amplifier lies in that its lateral stiffness is relatively low.…”

Analytical modeling, optimization and testing of a compound bridge-type compliant displacement amplifier

“…Most MEMS compliant mechanisms operate in-plane with in-plane actuators [58,59]. Jacobsen et al [56] present designs for lamina emergent mechanisms that are planar mechanisms capable of out of plane motion.…”

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