12/30/2023 0 Comments Piezo actuator quotesFlexure-guided systems exploit the advantages of compliant mechanisms ( Howell, 2001 Lobontiu et al., 2001 Lobontiu and Garcia, 2003 Yong et al., 2008), where a flexible element acts like a linear spring and deforms elastically to offer repeatable and accurate fine motions ( Lobontiu, 2003, 2015 Yong et al., 2012). Nanopositioners with the ability to provide sub-nanometer resolution and high-speed motion have became a vital component in applications, such as scanning probe microscopy ( Schitter et al., 2007 Ando, 2012 Yong and Moheimani, 2015 Yong and Fleming, 2016), alignment of fiber optics ( Wang et al., 2007), nano-indentation ( Bhushan, 1999 Miyahara et al., 1999), nano-fabrication ( Wiesauer and Springholz, 2000 Vicary and Miles, 2009), cavity ring-down spectroscopy in optical applications ( Berden et al., 2000 Debecker et al., 2005), micro-gripper ( Noveanu et al., 2015 Xu, 2015 Liu and Xu, 2016), and beam steering systems ( Gorman et al., 2003).įlexures have played an important role in high-speed nanopositioning systems. The ever-increasing demand for high speed and high precision in nanotechnology applications has increased the use of nanopositioning systems in the field. This article surveys key challenges in existing preload techniques in the context of high-speed nanopositioning designs, and explores how these challenges can be overcome. ![]() To protect the piezoelectric actuator, preload is often applied to compensate for these inertial forces. During high-speed operations, excessive inertia force due to the effective mass of nanopositioning system could potentially damage the actuator. However, these actuators are highly sensitive to tensile and lateral forces. High-speed nanopositioning devices are commonly driven by compact and stiff piezoelectric stack actuators. ![]() These systems are capable of providing motions with sub-nanometer resolution over a positioning bandwidth of a few kilohertz or more. Recent development in high-speed nanotechnology applications, such as scanning probe microscopy and nanofabrication, has increased interest on the advancement of high-bandwidth flexure-guided nanopositioning systems. School of Electrical Engineering and Computer Science, The University of Newcastle, Callaghan, NSW, Australia.
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