大电流ANSI 45-46配置下非对称电力变压器结构引起的一次绕组谐波

VIII IEEE International Power Electronics Congress, 2002. Technical Proceedings. CIEP 2002. Pub Date : 2002-10-20 DOI:10.1109/CIEP.2002.1216658

R. Fuentes, N. Espinosa

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引用次数: 1

摘要

在按ANSI 45或ANSI 46配置设计的大电流互感器-整流器中，二次绕组由于结构不对称，电流很大，其参数存在一定差异。例如，6脉冲整流器具有35ka直流负载电流，其二次相电流为17.5 kA//spl radic/3 = 10.1 kA。这些参数差异在相间电抗器中产生直流不平衡电流。这样做的后果是对电抗器和电力变压器造成饱和风险。因此，在交流初级绕组上出现非特征谐波。本文对这一现象进行了分析。结论是关于如何确定由于相间电抗器不平衡引起的初级绕组谐波的阶数。一次电流谐波分析的概念被用作一种诊断方法来确定间相电抗器的工作情况。最后，针对电抗器饱和问题，提出了一种独立的二次负载电流控制方法。

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Primary winding harmonics due to nonsymmetric power transformer structure in high current ANSI 45-46 configuration

In high current transformer-rectifier designed according ANSI 45 or ANSI 46 configuration, secondary windings have very high current and parameters present some differences due to the structure nonsymmetry. As an example, a 6 pulses rectifier with a 35 kA DC load current have a secondary phase current given by 17.5 kA//spl radic/3 = 10.1 kA. These parameter differences produce a DC unbalance current in the interphase reactor. The effect of this is a saturation risk on the reactor and in the power transformer. As a consequence of this, noncharacteristic harmonics on AC primary winding appear. This phenomenon is analyzed in this paper. Conclusions concern how to determine the order of harmonics in primary winding due to interphase reactor unbalance. This concept of harmonic analysis of primary current is used as a diagnostic method to determine how is the interphase reactor operating. Finally, an independent current control of each secondary load currents is proposed in order to mitigate the reactor saturation.

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VIII IEEE International Power Electronics Congress, 2002. Technical Proceedings. CIEP 2002.

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