Current-type Power Hardware in the Loop (PHIL) evaluation for smart transformer application

2018 IEEE International Conference on Industrial Electronics for Sustainable Energy Systems (IESES) Pub Date : 1900-01-01 DOI:10.1109/IESES.2018.8349933

Giovanni de Carne, G. Buticchi, Marco Liserre

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引用次数: 6

Abstract

The development of power electronics and power systems due to the massive integration of renewable energy sources is challenging the distribution grids. Among several concepts, the Smart Transformer (ST), a solid-state transformer with advanced control and communication capabilities, has been investigated by several researchers. A great challenge of this kind of system is the possibility to test the effectiveness of the physical system under a broad spectrum of operating conditions. For this reason, the Power Hardware in the Loop (PHIL) concept can be adopted to emulate the behavior of a distribution grid connected to the ST. In this case, because the low-voltage stage of the ST is voltage controlled, the test setup must be current-controlled. In this paper, the current-controlled PHIL setup is analyzed. The theorethical analysis is carried out and preliminary results obtained with the PHIL facilities are presented, highlighting how the current-controlled PHIL can be an effective means to study the ST.

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智能变压器应用的电流型电力硬件在环(PHIL)评估

由于可再生能源的大规模集成，电力电子和电力系统的发展对配电网提出了挑战。在几个概念中，智能变压器(ST)是一种具有先进控制和通信能力的固态变压器，已经被一些研究人员研究过。这种系统的一个巨大挑战是在广泛的操作条件下测试物理系统的有效性的可能性。出于这个原因，环路中的电源硬件(PHIL)概念可以用来模拟连接到ST的配电网的行为。在这种情况下，由于ST的低压阶段是电压控制的，测试设置必须是电流控制的。本文分析了电流控制的PHIL设置。本文进行了理论分析，并介绍了用PHIL设备获得的初步结果，强调了电流控制PHIL如何成为研究ST的有效手段。

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2018 IEEE International Conference on Industrial Electronics for Sustainable Energy Systems (IESES)

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