Study on the Decrease of Power Loss during DC Degradation of Zinc Oxide Varistor Ceramics

Zongke Hou, Yingying Zheng, M. Guo, Yao Wang, Zhuolin Cheng, Kangning Wu, Jianying Li, Shengtao Li
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引用次数: 1

Abstract

Zinc oxide (ZnO) varistor ceramics present excellent nonlinear current-voltage characteristics so that they are widely used as core materials in overvoltage protection. Generally, the nonlinear characteristics of traditional ZnO varistor ceramics would deteriorate under constant DC bias voltage, manifested as the continuous increase of power loss. However, it has been reported that some commercial samples experience a decrease in power loss during DC degradation, which makes them more stable in operation. The physical mechanism behind this unusual phenomenon is still unclear yet. In this paper, commercial ZnO varistor ceramics with this unique characteristic were employed for DC degradation and accelerated recovery. Current-voltage curves were measured in the ageing and recovery process. The results show that the forward barrier height declines and the nonlinearity becomes better, in contrast, the reverse nonlinearity falls off. But after enough recovery, the electrical properties of the ageing samples almost restored to the initial levels. To sum up, the opposite changes occurred between the forward and reverse characteristics in the ZnO varistors ceramics, but both are invertible.
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氧化锌压敏电阻陶瓷直流降解过程中降低功率损耗的研究
氧化锌(ZnO)压敏陶瓷具有优良的非线性电流-电压特性,被广泛用作过电压保护的芯材。在恒定的直流偏置电压下,传统ZnO压敏陶瓷的非线性特性通常会恶化,表现为功率损耗的不断增加。然而,据报道,一些商业样品在直流退化过程中功率损失减少,这使得它们在运行中更稳定。这一不寻常现象背后的物理机制尚不清楚。本文采用具有这一独特特性的商用ZnO压敏陶瓷进行直流降解和加速回收。在老化和恢复过程中测量了电流-电压曲线。结果表明,正向势垒高度减小,非线性变好,反向非线性减小。但经过足够的恢复,老化样品的电学性能几乎恢复到初始水平。综上所述,ZnO压敏电阻陶瓷的正向和反向特性发生相反的变化,但两者都是可逆的。
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