A variable-capacitance-type electrostatic microgenerator harnesses movement of the living body - Theoretical and experimental study

N. Kabei; R. Tashiro; K. Tsuchiya; F. Tsuboi; Y. Ishigaki; K. Katayama

A variable-capacitance-type electrostatic microgenerator harnesses movement of the living body - Theoretical and experimental study

N. Kabei, R. Tashiro, K. Tsuchiya, F. Tsuboi, Y. Ishigaki, K. Katayama

Department of Bioscience and Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

A variable-capacitance-type electrostatic migrogenrator harnessed motion of the living body was proposed and examined its performance. Three honeycomb-types variable capacitance that were the dominant part of electrostatic generator were made. Capacitance of type A model changed from 3.0 to 9.3 nF. That of type B model changed from 3.5 to 10.8 nF. That of type C model changed from 75 to 240 nF. There was big difference in layering method of the electrodes between type A model and type B or type C model. Output energy could not measure in type A model. Type B model generated B μJ in one cycle. Type C model generated 70 μJ in one cycle when initial supply voltage was 6 V. This means that type C microgenerator can supply enough power to operate a cardiac pacemaker if it can be vibrate over 1 Hz.

Original language	English
Pages (from-to)	103-108
Number of pages	6
Journal	Japanese Journal of Artificial Organs
Volume	27
Issue number	1
Publication status	Published - 1998 Jan 1

Keywords

Cardiac pacemaker
Electrostatic
Generator
Micromachine

ASJC Scopus subject areas

Biophysics

Cite this

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title = "A variable-capacitance-type electrostatic microgenerator harnesses movement of the living body - Theoretical and experimental study",

abstract = "A variable-capacitance-type electrostatic migrogenrator harnessed motion of the living body was proposed and examined its performance. Three honeycomb-types variable capacitance that were the dominant part of electrostatic generator were made. Capacitance of type A model changed from 3.0 to 9.3 nF. That of type B model changed from 3.5 to 10.8 nF. That of type C model changed from 75 to 240 nF. There was big difference in layering method of the electrodes between type A model and type B or type C model. Output energy could not measure in type A model. Type B model generated B μJ in one cycle. Type C model generated 70 μJ in one cycle when initial supply voltage was 6 V. This means that type C microgenerator can supply enough power to operate a cardiac pacemaker if it can be vibrate over 1 Hz.",

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AU - Kabei, N.

AU - Tashiro, R.

AU - Tsuchiya, K.

AU - Tsuboi, F.

AU - Ishigaki, Y.

AU - Katayama, K.

PY - 1998/1/1

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AB - A variable-capacitance-type electrostatic migrogenrator harnessed motion of the living body was proposed and examined its performance. Three honeycomb-types variable capacitance that were the dominant part of electrostatic generator were made. Capacitance of type A model changed from 3.0 to 9.3 nF. That of type B model changed from 3.5 to 10.8 nF. That of type C model changed from 75 to 240 nF. There was big difference in layering method of the electrodes between type A model and type B or type C model. Output energy could not measure in type A model. Type B model generated B μJ in one cycle. Type C model generated 70 μJ in one cycle when initial supply voltage was 6 V. This means that type C microgenerator can supply enough power to operate a cardiac pacemaker if it can be vibrate over 1 Hz.

KW - Cardiac pacemaker

KW - Electrostatic

KW - Generator

KW - Micromachine

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A variable-capacitance-type electrostatic microgenerator harnesses movement of the living body - Theoretical and experimental study

Abstract

Keywords

ASJC Scopus subject areas

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