Distinct degradation processes in ZnO varistors: reliability analysis and modeling with accelerated AC tests

Abstract: Abstract:In this study, we investigate different degradation mechanisms of zinc oxide (ZnO) varistors. We propose a model that shows how Vv (defined as DC varistor voltage when a 1-mA DC current is applied) changes with time for different stress levels. For this purpose, accelerated degradation tests are applied for different AC current levels and voltage values are then measured. Different from the common practice in the literature that considers degradation with only decreasing Vv values, we demonstrate eith… Show more

“…Due to these properties, ZnO is a significant material and having high potential for using at various technological and industrial fields such as solar cells, varistors, gas sensors, transistors, transparent conductive oxides, and supercapacitors. [4][5][6][7][8][9]. Electrical, optical and structural properties can be modified with deposition parameters or dopant elements [10][11][12][13].…”

FABRICATION AND I-V CHARACTERISTICS OF p-Si/n-ZnO:Er HETEROJUNCTIONS

“…Due to these properties, ZnO is a significant material and having high potential for using at various technological and industrial fields such as solar cells, varistors, gas sensors, transistors, transparent conductive oxides, and supercapacitors. [4][5][6][7][8][9]. Electrical, optical and structural properties can be modified with deposition parameters or dopant elements [10][11][12][13].…”

FABRICATION AND I-V CHARACTERISTICS OF p-Si/n-ZnO:Er HETEROJUNCTIONS

Ageing Characterisation of Varistor Arresters: A Statistical Model for Grain Response Under Applied Thermal Stress