期刊
HIGH VOLTAGE
卷 6, 期 5, 页码 782-792出版社
WILEY
DOI: 10.1049/hve2.12039
关键词
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资金
- National Key Research and Development Plan [2016YFB0900701]
- State Key Laboratory of Advanced Power Transmission Technology [GEIRI-SKL2019-007]
The study found that at extra high electric fields, the injection depth of space charge is restricted and the charge mobility decreases with increased field. Therefore, a mobility-limited charge injection equation was proposed.
In this study, characteristics of charge injection under extra high electric field (above 100 kV/mm) in cross-linked polyethylene (XLPE) were investigated by experiments of conduction current and space charge. The results show that current density from low electric field to sample breakdown corresponds to space charge limited current (SCLC) theory. More specifically, Schottky current is similar to experiment current before 100 kV/mm, while the J-E curve conforms to a modified SCLC theory after 100 kV/mm. Besides, the non-linear coefficient of J-E curve from 100 kV/mm to extra high electric field is smaller than theoretical value, and the injection depth of space charge is restricted as the field becomes higher than 100 kV/mm, which may be caused by the negative differential mobility of charge. Driven by extra high electric field, charge collides with lattice of dielectric and scatters. As a result, mean free time of charge decreases and charge mobility is reduced with the increased field. Consequently, considering the decrease in charge mobility, a mobility-limited charge injection equation is proposed, and the validity of the proposed equation under extra high electric field is demonstrated by space charge simulation.
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