Influence of small slide vibration over Au-Au electric contact phenomenon
A LiNbO/sub 3/ piezoelectric bimorph actuator was used to control 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 are continuously and synchronously recorded b...
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| Published in | Proceedings of the Forty-Ninth IEEE Holm Conference on Electrical Contacts, 2003 pp. 65 - 69 |
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| Main Authors | , |
| Format | Conference Proceeding |
| Language | English |
| Published |
IEEE
2003
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| Subjects | |
| Online Access | Get full text |
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| Abstract | A LiNbO/sub 3/ piezoelectric bimorph actuator was used to control 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 are continuously and synchronously recorded by an A/D converter and send to a computer. The measured oscillograph data for 1500 contact operations are processed by the computer. Bridge resistance and length can be derived for a contact operation. The diameter of the Au-Au contact bridge is reported to be submicron. We want to examine the influence of small slide vibration on Au-Au electric contact bridge phenomenon. The sub-micron slide vibration was impressed to the fixed electrode and the influence on the contact bridge phenomena were investigated. The bridge length increases and the bridge resistance decreases with the slide vibration amplitude. Using the actuator displacement, the sticking force was estimated by the finite element method. The resonance vibration of the bimorph actuator was observed just after the contact bridge break. The motive force of the resonance would be the impulsive force due to the bridge break. Using the impulse model, the resonance vibration of the actuator was simulated by an electro mechanical equivalent circuit. |
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| AbstractList | A LiNbO/sub 3/ piezoelectric bimorph actuator was used to control 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 are continuously and synchronously recorded by an A/D converter and send to a computer. The measured oscillograph data for 1500 contact operations are processed by the computer. Bridge resistance and length can be derived for a contact operation. The diameter of the Au-Au contact bridge is reported to be submicron. We want to examine the influence of small slide vibration on Au-Au electric contact bridge phenomenon. The sub-micron slide vibration was impressed to the fixed electrode and the influence on the contact bridge phenomena were investigated. The bridge length increases and the bridge resistance decreases with the slide vibration amplitude. Using the actuator displacement, the sticking force was estimated by the finite element method. The resonance vibration of the bimorph actuator was observed just after the contact bridge break. The motive force of the resonance would be the impulsive force due to the bridge break. Using the impulse model, the resonance vibration of the actuator was simulated by an electro mechanical equivalent circuit. |
| Author | Yonezawa, Y. Wakatsuki, N. |
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| Snippet | A LiNbO/sub 3/ piezoelectric bimorph actuator was used to control the Au-Au contact gap. The control accuracy of the actuator is within the sub-micron range.... |
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| SubjectTerms | Bridge circuits Contact resistance Electric resistance Electrical resistance measurement Electrodes Finite element methods Piezoelectric actuators Resonance Vibrations Voltage |
| Title | Influence of small slide vibration over Au-Au electric contact phenomenon |
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