Comparison of energy presence in IEC and real transient impulses

中国防雷 Pub Date : 2021-09-20 DOI:10.1109/ICLPandSIPDA54065.2021.9627342

N. Sapumanage, S. Nanayakkara, S. Abegunawardana, M. Fernando, V. Cooray

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Abstract

This study disclosed that the IEC impulse is not an appropriate candidate to benchmark real transient over-voltages owing to have many discrepancies between them in terms of energy localization and frequencies that host such energies. However, the total energy content of the comparable IEC impulse is higher than the real transient voltages. Thus, once tested and passed the endurance at laboratories such an energy absorbing device would not fail at the field applications against single real transient voltage. However the same cannot be guaranteed against the swarm of impulses as the same cannot be tested at the test bench due to many practical constraints. The study revealed that IEC impulses can accommodate only 2.31% of the total energy until it reaches to 90% of the peak voltage, whereas the selected real transient impulses have shown that they could accommodate nearly 6% to 18% of the total incident energy before they reach to 90 % of the peak voltage. Moreover, when IEC impulse reaches to the peak, it can incident only a 9.71% of the total energy, but real transient voltages demonstrated that they have a capacity to incident nearly 30% to 45 % total energy embedded in the impulse.

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IEC和真实瞬态脉冲中能量存在的比较

这项研究表明，由于IEC脉冲在能量局部化和承载这些能量的频率方面存在许多差异，因此它不是衡量实际瞬态过电压的合适候选。然而，等效IEC脉冲的总能量含量高于实际瞬态电压。因此，一旦在实验室测试并通过了耐久性，这种能量吸收装置就不会在单个实际瞬态电压的现场应用中失败。然而，由于许多实际限制，无法在试验台上对相同的脉冲进行测试，因此无法保证对脉冲群进行相同的测试。研究表明，在达到峰值电压的90%之前，IEC脉冲只能容纳总能量的2.31%，而所选的真实瞬态脉冲表明，在达到峰值电压的90%之前，它们可以容纳总入射能量的近6%至18%。此外，当IEC脉冲达到峰值时，它只能入射总能量的9.71%，但实际瞬态电压表明，它们有能力入射脉冲中嵌入的总能量的近30%至45%。

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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中国防雷

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