Parameters variation of solid tantalum capacitors used in fuze under high-g shock

Changlong Li; Shiqiao Gao; Shaohua Niu; Haipeng Liu

doi:10.11883/bzycj-2016-0222

Parameters variation of solid tantalum capacitors used in fuze under high-g shock

Changlong Li, Shiqiao Gao, Shaohua Niu^*, Haipeng Liu

^*Corresponding author for this work

School of Mechatronical Engineering

Beijing Institute of Technology

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

3 Citations (Scopus)

Abstract

A series of experiments were carried out to explore the effects of high-g shock load on the electrical parameters (capacitance and leakage current) of the solid tantalum capacitor. The results show that the capacitance increases with the increase of the shock load and the leakage current increases exponentially with the rising shock load. After the shock load, the electrical parameters return to their initial values as demonstrated. The variations of the tantalum capacitors' electrical parameters were explained by a combination of three mechanisms: the shock-induced elastic deformation of the tantalum capacitor that leads to the capacitance's increase, the shock-induced micro-defects and shock-induced rise of the electron traps concentration that leads to the leakage currents' increase.

Original language	English
Pages (from-to)	419-425
Number of pages	7
Journal	Baozha Yu Chongji/Expolosion and Shock Waves
Volume	38
Issue number	2
DOIs	https://doi.org/10.11883/bzycj-2016-0222
Publication status	Published - 25 Mar 2018

Keywords

Capacitance
High-g shock load
Leakage current
Solid tantalum capacitor

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abstract = "A series of experiments were carried out to explore the effects of high-g shock load on the electrical parameters (capacitance and leakage current) of the solid tantalum capacitor. The results show that the capacitance increases with the increase of the shock load and the leakage current increases exponentially with the rising shock load. After the shock load, the electrical parameters return to their initial values as demonstrated. The variations of the tantalum capacitors' electrical parameters were explained by a combination of three mechanisms: the shock-induced elastic deformation of the tantalum capacitor that leads to the capacitance's increase, the shock-induced micro-defects and shock-induced rise of the electron traps concentration that leads to the leakage currents' increase.",

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AU - Li, Changlong

AU - Gao, Shiqiao

AU - Niu, Shaohua

AU - Liu, Haipeng

PY - 2018/3/25

Y1 - 2018/3/25

N2 - A series of experiments were carried out to explore the effects of high-g shock load on the electrical parameters (capacitance and leakage current) of the solid tantalum capacitor. The results show that the capacitance increases with the increase of the shock load and the leakage current increases exponentially with the rising shock load. After the shock load, the electrical parameters return to their initial values as demonstrated. The variations of the tantalum capacitors' electrical parameters were explained by a combination of three mechanisms: the shock-induced elastic deformation of the tantalum capacitor that leads to the capacitance's increase, the shock-induced micro-defects and shock-induced rise of the electron traps concentration that leads to the leakage currents' increase.

AB - A series of experiments were carried out to explore the effects of high-g shock load on the electrical parameters (capacitance and leakage current) of the solid tantalum capacitor. The results show that the capacitance increases with the increase of the shock load and the leakage current increases exponentially with the rising shock load. After the shock load, the electrical parameters return to their initial values as demonstrated. The variations of the tantalum capacitors' electrical parameters were explained by a combination of three mechanisms: the shock-induced elastic deformation of the tantalum capacitor that leads to the capacitance's increase, the shock-induced micro-defects and shock-induced rise of the electron traps concentration that leads to the leakage currents' increase.

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Parameters variation of solid tantalum capacitors used in fuze under high-g shock

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