Design, modeling, and characterization of a MEMS micro-gripper with an integrated electrothermal force sensor

Piriyanont, Busara; Moheimani, S. O. Reza

Title: Design, modeling, and characterization of a MEMS micro-gripper with an integrated electrothermal force sensor
Creator: Piriyanont, Busara; Moheimani, S. O. Reza
Relation: 2013 IEEE/ASME International Conference on Advanced Intelligent Mechatronics: Mechatronics for Human Wellbeing (AIM 2013). Proceedings of the 2013 IEEE/ASME International Conference on Advanced Intelligent Mechatronics: Mechatronics for Human Wellbeing, AIM 2013 (Wollongong, Australia 09-12 July, 2013) p. 348-353
Publisher Link: http://dx.doi.org/10.1109/AIM.2013.6584116
Publisher: Institute of Electrical and Electronics Engineers (IEEE)
Resource Type: conference paper
Date: 2013
Description: With growing developments in biomedical research and micro industrial applications, there is a demand for micro-grippers that are reliable and can operate with high precision. This paper presents a MEMS micro-gripper with an integrated electrothermal force sensors. The microgripper is actuated by electrostatic comb-drives. Electrothermal resistive sensors are used to measure the gripping force. In this arrangement, the sensing arms deflection induces a temperature difference between two identical resistive sensors, biased at the same voltage, which results in current variation in the resistors. The currents are then converted to an output voltage using a half Wheat-stone bridge and an instrumentation amplifier. With the sensing displacement information available, the gripping force can be calculated. The device was designed and fabricated in a commercial Silicon-On Insulator MEMS foundry (MEMSCAP). A pick-and-place operation on 85 μm micro-beads on 3-axis micro-positioner is performed to evaluate the performance of the device. The experiment shows that the micro-gripper is able to handle a wide range of micro-sample sizes with biocompatibility and gentle handling forces.
Subject: bridge circuits; control system synthesis; dexterous manipulators; displacement measurement; electrostatic actuators; force measurement; force sensors
Identifier: http://hdl.handle.net/1959.13/1295480
Identifier: uon:19038
Identifier: ISBN:9781467353205
Language: eng
Reviewed

Hits: 1135
Visitors: 1115
Downloads: 0

		Thumbnail	File	Description	Size	Format