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KUPAROWITZ, M. SEDLÁKOVÁ, V. GRMELA, L.
Original Title
LEAKAGE CURRENT DEGRADATION DUE TO ION DRIFT AND DIFFUSION IN TANTALUM AND NIOBIUM OXIDE CAPACITORS
Type
journal article in Web of Science
Language
English
Original Abstract
High temperature and high electric field applications in tantalum and niobium capacitors are limited by the mechanism of ion migration and field crystallization in a tantalum or niobium pentoxide insulating layer. The study of leakage current (DCL) variation in time as a result of increasing temperature and electric field might provide information about the physical mechanism of degradation. The experiments were performed on tantalum and niobium oxide capacitors at temperatures of about 125 degrees C and applied voltages ranging up to rated voltages of 35 V and 16 V for tantalum and niobium oxide capacitors, respectively. Homogeneous distribution of oxygen vacancies acting as positive ions within the pentoxide layer was assumed before the experiments. DCL vs. time characteristics at a fixed temperature have several phases. At the beginning of ageing the DCL increases exponentially with time. In this period ions in the insulating layer are being moved in the electric field by drift only. Due to that the concentration of ions near the cathode increases producing a positively charged region near the cathode. The electric field near the cathode increases and the potential barrier between the cathode and insulating layer decreases which results in increasing DCL. However, redistribution of positive ions in the insulator layer leads to creation of a ion concentration gradient which results in a gradual increase of the ion diffusion current in the direction opposite to the ion drift current component. The equilibrium between the two for a given temperature and electric field results in saturation of the leakage current value. DCL vs. time characteristics are described by the exponential stretched law. We found that during the initial part of ageing an exponent n = 1 applies. That corresponds to the ion drift motion only. After long-time application of the electric field at a high temperature the DCL vs. time characteristics are described by the exponential stretched law with an exponent n = 0.5. Here, the equilibrium between the ion drift and diffusion is achieved. The process of leakage current degradation is therefore partially reversible. When the external electric field is lowered, or the samples are shortened, the leakage current for a given voltage decreases with time and the DCL vs. time characteristics are described by the exponential stretched law with an exponent n = 0.5, thus the ion redistribution by diffusion becomes dominant.
Keywords
niobium oxide capacitors; tantalum capacitors; leakage current; ion diffusion; ion drift
Authors
KUPAROWITZ, M.; SEDLÁKOVÁ, V.; GRMELA, L.
Released
17. 6. 2017
Publisher
POLISH ACAD SCIENCES, PL DEFILAD 1, WARSZAWA, 00000, POLAND
Location
Polsko
ISBN
0860-8229
Periodical
METROL MEAS SYST
Year of study
24
Number
2
State
Republic of Poland
Pages from
255
Pages to
264
Pages count
10
URL
http://www.degruyter.com/view/j/mms.2017.24.issue-2/mms-2017-0034/mms-2017-0034.xml?format=INT
BibTex
@article{BUT139511, author="Martin {Velísek} and Vlasta {Sedláková} and Lubomír {Grmela}", title="LEAKAGE CURRENT DEGRADATION DUE TO ION DRIFT AND DIFFUSION IN TANTALUM AND NIOBIUM OXIDE CAPACITORS", journal="METROL MEAS SYST", year="2017", volume="24", number="2", pages="255--264", doi="10.1515/mms-2017-0034", issn="0860-8229", url="http://www.degruyter.com/view/j/mms.2017.24.issue-2/mms-2017-0034/mms-2017-0034.xml?format=INT" }