Comparison of Ideal Transformer Method and Damping Impedance Method for PV Power-Hardware-In-The-Loop Experiments

被引：0

作者：

Summers, Adam ^{[1
]}

Hernandez-Alvidrez, Javier ^{[1
]}

Darbali-Zamora, Rachid ^{[1
]}

Reno, Matthew J. ^{[1
]}

Johnson, Jay ^{[1
]}

Gurule, Nicholas S. ^{[1
]}

机构：

[1] Sandia Natl Labs, Albuquerque, NM 87185 USA

来源：

2019 IEEE 46TH PHOTOVOLTAIC SPECIALISTS CONFERENCE (PVSC) | 2019年

关键词：

PV inverter; low pass filter; lead filter; ideal transformer method; PHIL; damping impedance method; power hardware-in-the-loop;

D O I：

10.1109/pvsc40753.2019.8980690

中图分类号：

TE [石油、天然气工业]; TK [能源与动力工程];

学科分类号：

0807 ; 0820 ;

摘要：

The Ideal Transformer Method (ITM) and the Damping Impedance Method (DIM) are the most widely used techniques for connecting power equipment to a Power-Hardware-in-the-Loop (PHIL) real-time simulation. Both methods have been studied for their stability and accuracy in PHIL simulations, but neither have been analyzed when the hardware is providing grid-support services with volt-var, frequency-watt, and fixed power factor functions. In this work, we experimentally validate the two methods of connecting a physical PV inverter to a PHIL system and evaluate them for dynamic stability and accuracy when operating with grid-support functions. It was found that the DIM Low Pass Lead Filter (LPF LD) method was the best under unity and negative power factor conditions, but the ITM LPF LD method was preferred under positive power factor conditions.

引用

页码：2989 / 2996

页数：8

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