Roughness Enhanced Charge Injection and Field Dependent Conduction Mechanisms for Bipolar Charge Transport Models

E. Doedens, E. M. Jarvid, Y. Serdyuk
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引用次数: 1

Abstract

Extruded HVDC cable systems contain a multitude of different interface types. Physical interfaces are introduced on-site when the outer semi-conductive layer is removed prior to installing a pre-molded joint or stress-cone onto the cable end. Such interfaces are characterized by surface roughness, which can locally enhance electric field and stimulate charge injection at microscale asperities. This work studies the impact of surface roughness on charge injection by performing space charge measurements on cable peelings and evaluating the observed charge evolution with a bipolar charge model. The behavior during both polarization and depolarization stages was investigated. A unique set of conduction and injection parameters is suggested allowing for realistic interpretation of charge accumulation and decay observed in the measurements.
双极电荷输运模型的粗糙度增强电荷注入和场相关传导机制
挤压高压直流电缆系统包含多种不同的接口类型。当在电缆端安装预成型接头或应力锥之前,将外层半导电层移除时,将在现场引入物理接口。这种界面具有表面粗糙度的特点,表面粗糙度可以局部增强电场并刺激微尺度凸起处的电荷注入。本研究通过对电缆剥离进行空间电荷测量,并利用双极电荷模型评估观察到的电荷演变,研究了表面粗糙度对电荷注入的影响。研究了极化和退极化过程中的行为。提出了一套独特的传导和注入参数,允许对测量中观察到的电荷积累和衰减进行现实的解释。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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