Single-phase three-stage SST modeling using RTDS for controller hardware-in-the-loop application

2015 IEEE Energy Conversion Congress and Exposition (ECCE) Pub Date : 2015-10-29 DOI:10.1109/ECCE.2015.7309984

Tong Yao, I. Leonard, R. Ayyanar, M. Steurer

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引用次数: 6

Abstract

In order to develop and validate smart grid technologies with complex control and communication, detailed modeling of distribution systems using the Real Time Digital Simulator (RTDS) is invaluable [1]. At the distribution system level, testing a 13 kV power electronic device without first validating its controls is cost prohibitive. RTDS provides a cost effective way to study smart grids at not only the system level but also at the device level. The difficulty of modeling the distribution system using RTDS lies in the power electronic devices in the system such as single-phase three-stage solid state transformers (SST) and distributed energy storage devices (DESD) due to their fast transients. This paper investigates the low-loss two-level VSC bridge (LEV2) switching model in RTDS and solves the artificial loss problem for single phase systems. Then, the modeling method is applied to a controller hardware-in-the-loop (CHIL) setup with an SST and DESD, showing promising results. Finally, with the actual DSP+FPGA board for control and an ARM TS7800 for communication, the SST modeled in RTDS is controlled over Ethernet.

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使用RTDS对控制器硬件在环应用进行单相三级SST建模

为了开发和验证具有复杂控制和通信的智能电网技术，使用实时数字模拟器(RTDS)对配电系统进行详细建模是非常宝贵的[1]。在配电系统层面，在不首先验证其控制的情况下测试13千伏电力电子设备是成本过高的。RTDS不仅在系统级，而且在设备级提供了一种经济有效的方法来研究智能电网。利用RTDS对配电系统进行建模的难点在于系统中的电力电子器件，如单相三相固态变压器(SST)和分布式储能装置(DESD)由于其瞬变快而难以建模。研究了RTDS中低损耗的两电平VSC桥(LEV2)开关模型，解决了单相系统的人为损耗问题。然后，将该建模方法应用于具有SST和DESD的控制器硬件在环(CHIL)设置，显示了令人满意的结果。最后，利用实际的DSP+FPGA板进行控制和ARM TS7800进行通信，通过以太网控制RTDS中建模的SST。

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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2015 IEEE Energy Conversion Congress and Exposition (ECCE)

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