AgCuO电触头材料的电接触性能研究 关键词:AgCuO ;燃弧时间;燃弧能量;熔焊力;接触电阻 [gap=1487]Key words: AgCuO; arc duration; arc energy; welding force; contact resistance
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The dummy equipment based onLabVIEW adopt the moving-average ways to pick up the arc duration of every disjunction voltage.
基于LabVIEW虚拟仪器采用移动平均法提取分断和闭合电压的燃弧时间。
参考来源 - 继电器触头燃弧时间分析及其试验The mathematical model well revealed the tendency of arc duration with the supply voltage increasing.
该数学模型能够反映出燃弧时间随电源电压变化的规律,指出燃弧时间随着电源电压的升高而增大。
参考来源 - 汽车继电器电触头燃弧特性分析及试验研究·2,447,543篇论文数据,部分数据来源于NoteExpress
The short arc ignition and its characteristics were analysed. It was also pointed out that contact bounce duration decided the closing short arc duration.
分析了短电弧的产生机理和基本特性,指出了触点弹跳时间决定闭合短电弧的时间。
According to the dynamic behavior of the breaking current, breaking arc duration is extract from the breaking current waveform by using the concept of moving average of statistics.
利用分断电弧过程中的电流动态特性,使用移动平均法提取了每次分断电流的燃弧时间。
The results showed that:(1) the reproduced duration of line and arc was significantly higher than nonocclusive circle and square;
结果表明:直线、弧线、未封闭圆环、未封闭方框四种运动形状,前两者运动时间的反应值显著高于后两者;
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