Improving the accuracy of walking piezo motors

Many application areas require ultraprecise, stiff, and compact actuator systems with a high positioning resolution in combination with a large range as well as a high holding and pushing force. One promising solution to meet these conflicting requirements is a walking piezo motor that works with tw...

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Veröffentlicht in:	Review of scientific instruments 2014-05, Vol.85 (5), p.055007-055007
Hauptverfasser:	den Heijer, M, Fokkema, V, Saedi, A, Schakel, P, Rost, M J
Format:	Artikel
Sprache:	eng
Schlagworte:	High vacuum Piezoelectric motors Pushing Scientific apparatus & instruments
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creator	den Heijer, M Fokkema, V Saedi, A Schakel, P Rost, M J
description	Many application areas require ultraprecise, stiff, and compact actuator systems with a high positioning resolution in combination with a large range as well as a high holding and pushing force. One promising solution to meet these conflicting requirements is a walking piezo motor that works with two pairs of piezo elements such that the movement is taken over by one pair, once the other pair reaches its maximum travel distance. A resolution in the pm-range can be achieved, if operating the motor within the travel range of one piezo pair. However, applying the typical walking drive signals, we measure jumps in the displacement up to 2.4 μm, when the movement is given over from one piezo pair to the other. We analyze the reason for these large jumps and propose improved drive signals. The implementation of our new drive signals reduces the jumps to less than 42 nm and makes the motor ideally suitable to operate as a coarse approach motor in an ultra-high vacuum scanning tunneling microscope. The rigidity of the motor is reflected in its high pushing force of 6.4 N.
doi_str_mv	10.1063/1.4878624
format	Article
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subjects	High vacuum Piezoelectric motors Pushing Scientific apparatus & instruments
title	Improving the accuracy of walking piezo motors
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