Relationship among input-force, payload, stiffness and displacement of a 3-DOF perpendicular parallel micro-manipulator

In this paper, a three translational degrees of freedom (DOF) complaint perpendicular parallel micro-manipulator (PPMM) with monolithic structure is presented. The PPMM is driven by three piezoelectric actuators, and its three actuating directions are normal to each other. To achieve highly accurate...

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Veröffentlicht in:	Mechanism and machine theory 2010-05, Vol.45 (5), p.756-771
Hauptverfasser:	Yue, Yi, Gao, Feng, Zhao, Xianchao, Jeffrey Ge, Q.
Format:	Artikel
Sprache:	eng
Schlagworte:	Compliant parallel mechanisms Computer simulation Displacement Finite element method Flexure hinge Mathematical analysis Mathematical models Micro-manipulator Payloads Piezoelectric actuators Stiffness
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creator	Yue, Yi Gao, Feng Zhao, Xianchao Jeffrey Ge, Q.
description	In this paper, a three translational degrees of freedom (DOF) complaint perpendicular parallel micro-manipulator (PPMM) with monolithic structure is presented. The PPMM is driven by three piezoelectric actuators, and its three actuating directions are normal to each other. To achieve highly accurate control, a new approach investigating the relationship among input-force, payload, stiffness, and displacement (IPSD) of the 3-DOF PPMM is proposed in analytical style. And the relationship between voltage value of piezoelectric actuator and output displacement of end-effector is obtained base on the IPSD model. Finally, in order to verify IPSD model, the simulations by finite element method (FEM) and experiments are performed. The proposed IPSD model is useful for both digital control and design of the 3-DOF PPMM.
doi_str_mv	10.1016/j.mechmachtheory.2009.12.006
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subjects	Compliant parallel mechanisms Computer simulation Displacement Finite element method Flexure hinge Mathematical analysis Mathematical models Micro-manipulator Payloads Piezoelectric actuators Stiffness
title	Relationship among input-force, payload, stiffness and displacement of a 3-DOF perpendicular parallel micro-manipulator
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