目前在判断氧化锌压敏电阻的老化程度方面还没有标准的方法可循。
But now, there is not a standard method to estimate the aging degree of ZnO varistor.
最后计算了在交流电源中用氧化锌压敏电阻对浪涌进行限幅和泻流的一个实例。
Finally, a practical calculation example of clamping the voltage of low voltage power line under the surge and effusion surge current by metal oxide varistor is given.
采用X射线光电子能谱(XPS)对比分析纯氧化锌陶瓷和氧化锌压敏电阻的界面特性。
Analyzed were the characteristics of interface of both ZnO varistor and pure ZnO ceramic by X-ray photoelectron spectroscopy (XPS).
氧化锌压敏电阻器的主要功能是探测和抑制反复出现的浪涌电压及过电压而自身不会破坏。
The major function of variators of ZnO is to detect and suppress surge voltage and over voltage without destroying themselves.
型压敏电阻器是以氧化锌为主要原料制造的半导体陶瓷元件,其电阻值随施加电压的变化而呈非线性变化。
Type MYG Varistors are made of semiconductor ceramic materials composed mainly of zinc oxides. They have non-linear resistance that changes as a function of applied voltage.
MYGJ高能型压敏电阻器是以氧化锌为主要原料的半导体陶瓷元件,其电阻值随施加电压的变化而变化。
Type MYGJ varistors are made of semiconductor ceramic material composed mainly of zinc oxides. They have non-linear resistance that changes as a function of applied voltage.
人们往往通过掺杂来提高氧化锌在发光管、紫外光探测器、表面声波器件、压敏电阻器件等方面的应用。
The ZnO films are often doped to expand the use of zinc oxide, for example in the LED, UV detectors, surface acoustic wave devices, varistor devices and so on.
氧化锌在催化剂,色素,光学材料,美容制品,纳米压敏电阻,紫外吸收器,气体传感器,工业添加剂等功能设施上都有广泛的应用。
ZnO has a wide range of applications in the functional devices, catalysts, pigments, optical materials, cosmetics, nanostructure varistors, UV absorbers, gas sensors and industrial additives.
氧化锌在催化剂,色素,光学材料,美容制品,纳米压敏电阻,紫外吸收器,气体传感器,工业添加剂等功能设施上都有广泛的应用。
ZnO has a wide range of applications in the functional devices, catalysts, pigments, optical materials, cosmetics, nanostructure varistors, UV absorbers, gas sensors and industrial additives.
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