Influence of Shear Vibration over Au-Au Electric Contact Phenomenon

Yu YONEZAWA; Noboru WAKATSUKI

Influence of Shear Vibration over Au-Au Electric Contact Phenomenon

Yu YONEZAWA, Noboru WAKATSUKI

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A LiNbO₃ piezoelectric actuator controls the Au-Au contact gap. The control accuracy of the actuator is within the sub-micron range. Contact voltage, contact current, displacement of electrodes and driving voltage of the actuator were continuously and synchronously recorded by an A/D converter and send to a computer. The measured oscillograph data for 1500 contact operation were processed by the computer. Factors of discharge and bridge phenomena were derived at a contact operation. The delay time between displacement and driving signal of the actuator increased when one side of electric contact were vibrated. The resonance was seen in the actuator, and the dependency to the current and the amplitude was seen.

Publication: IEICE TRANSACTIONS on Electronics Vol.E86-C No.6 pp.902-907

Publication Date: 2003/06/01

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Type of Manuscript: Special Section PAPER (Special Issue on Recent Development of Electro-Mechanical Devices (IS-EMD 2002))

Category: Contact Phenomena

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Yu YONEZAWA, Noboru WAKATSUKI, "Influence of Shear Vibration over Au-Au Electric Contact Phenomenon" in IEICE TRANSACTIONS on Electronics, vol. E86-C, no. 6, pp. 902-907, June 2003, doi: .
Abstract: A LiNbO₃ piezoelectric actuator controls the Au-Au contact gap. The control accuracy of the actuator is within the sub-micron range. Contact voltage, contact current, displacement of electrodes and driving voltage of the actuator were continuously and synchronously recorded by an A/D converter and send to a computer. The measured oscillograph data for 1500 contact operation were processed by the computer. Factors of discharge and bridge phenomena were derived at a contact operation. The delay time between displacement and driving signal of the actuator increased when one side of electric contact were vibrated. The resonance was seen in the actuator, and the dependency to the current and the amplitude was seen.
URL: https://global.ieice.org/en_transactions/electronics/10.1587/e86-c_6_902/_p

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@ARTICLE{e86-c_6_902,
author={Yu YONEZAWA, Noboru WAKATSUKI, },
journal={IEICE TRANSACTIONS on Electronics},
title={Influence of Shear Vibration over Au-Au Electric Contact Phenomenon},
year={2003},
volume={E86-C},
number={6},
pages={902-907},
abstract={A LiNbO₃ piezoelectric actuator controls the Au-Au contact gap. The control accuracy of the actuator is within the sub-micron range. Contact voltage, contact current, displacement of electrodes and driving voltage of the actuator were continuously and synchronously recorded by an A/D converter and send to a computer. The measured oscillograph data for 1500 contact operation were processed by the computer. Factors of discharge and bridge phenomena were derived at a contact operation. The delay time between displacement and driving signal of the actuator increased when one side of electric contact were vibrated. The resonance was seen in the actuator, and the dependency to the current and the amplitude was seen.},
keywords={},
doi={},
ISSN={},
month={June},}

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TY - JOUR
TI - Influence of Shear Vibration over Au-Au Electric Contact Phenomenon
T2 - IEICE TRANSACTIONS on Electronics
SP - 902
EP - 907
AU - Yu YONEZAWA
AU - Noboru WAKATSUKI
PY - 2003
DO -
JO - IEICE TRANSACTIONS on Electronics
SN -
VL - E86-C
IS - 6
JA - IEICE TRANSACTIONS on Electronics
Y1 - June 2003
AB - A LiNbO₃ piezoelectric actuator controls the Au-Au contact gap. The control accuracy of the actuator is within the sub-micron range. Contact voltage, contact current, displacement of electrodes and driving voltage of the actuator were continuously and synchronously recorded by an A/D converter and send to a computer. The measured oscillograph data for 1500 contact operation were processed by the computer. Factors of discharge and bridge phenomena were derived at a contact operation. The delay time between displacement and driving signal of the actuator increased when one side of electric contact were vibrated. The resonance was seen in the actuator, and the dependency to the current and the amplitude was seen.
ER -