Active load balancer on three-phase four-wire distribution systems with constant DC capacitor voltage control for multiple loads

2014 International Power Electronics and Application Conference and Exposition Pub Date : 2014-11-01 DOI:10.1109/PEAC.2014.7037957

Yoshihiro Hisada, T. Win, Toshihiko Tanaka, Hiroaki Yamada, M. Okamoto, S. Lee

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Abstract

This paper deals with compensation performance of an active load balancer (ALB) with the constant DC capacitor voltage control based strategy under multiple feeders. Instantaneous power flow into the ALB show that the balanced source currents with a unity power factor are obtained on the feeder that is connected to the ALB. Thus the ALB is not over loaded although the constant DC capacitor voltage control based strategy is used under multiple loads. Digital computer simulation is implemented to confirm the validity and high practicability of the ALB with the constant DC capacitor voltage control based on strategy under multiple feeders. A prototype experimental model is also constructed and tested. Simulation and experimental results demonstrate that the ALB with the constant DC capacitor voltage control based strategy compensates the unbalanced active and reactive components on the ALB connected feeder while the unbalanced current conditions are remained on other feeders. Thus, the ALB is not overloaded even it is used in the multiple distribution feeders.

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三相四线制配电系统的有源负载平衡器，具有恒定直流电容电压控制

研究了基于直流电容恒压控制策略的主动负载均衡器在多馈线条件下的补偿性能。进入ALB的瞬时功率流表明，在连接到ALB的馈线上获得了具有单位功率因数的平衡源电流。因此，尽管在多个负载下使用了基于恒定直流电容电压控制的策略，但ALB不会过载。通过数字计算机仿真，验证了多馈线下基于策略的直流电容恒压控制ALB的有效性和实用性。建立了原型实验模型并进行了测试。仿真和实验结果表明，基于直流电容恒压控制策略的ALB对ALB连接的馈线上的不平衡有功和无功分量进行了补偿，而其他馈线上的不平衡电流状态保持不变。因此，即使在多个配电馈线中使用，ALB也不会过载。

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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2014 International Power Electronics and Application Conference and Exposition

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