Hardware-in-the-loop Based Grid Compatibility Test for Power Electronics Interface

Ziqian Zhang; Robert Schürhuber; Lothar Fickert; Yongming Zhang

Hardware-in-the-loop Based Grid Compatibility Test for Power Electronics Interface

Ziqian Zhang, Robert Schürhuber, Lothar Fickert, Yongming Zhang

Institute of Electrical Power Systems (4320)

Research output: Contribution to conference › Paper › peer-review

Abstract

The future power systems has a clear trend towards power electronic connected generation. In contrast to conventional power systems, dynamic characteristics of power electronic interface strongly depends on the implemented control. This leads to imperative changes in the test and validation method of power electronic interface. This paper presents a new test and validation method based on hardware-in-loop tests in order to adapt to the future power system. Through this new method, equipment manufacturers can speed up the development-testing-certification period of their product and obtain product certification. The grid operator can obtain a credible power electronic interface - grid system stability validation report with the model verified by the hardware-in-loop test.

Original language	English
Pages	100
Number of pages	106
Publication status	Published - 15 May 2019
Event	2019 20th International Scientific Conference on Electric Power Engineering (EPE) - Hotel Dlouhe Strane, Kouty nad Desnou, Czech Republic Duration: 15 May 2019 → 17 May 2019 http://www.epe-conference.eu/

Conference

Conference	2019 20th International Scientific Conference on Electric Power Engineering (EPE)
Country/Territory	Czech Republic
City	Kouty nad Desnou
Period	15/05/19 → 17/05/19
Internet address	http://www.epe-conference.eu/

Keywords

hardware-in-the-loop
power electronic interface
stability
impedance-based stability criterion

Cite this

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title = "Hardware-in-the-loop Based Grid Compatibility Test for Power Electronics Interface",

abstract = "The future power systems has a clear trend towards power electronic connected generation. In contrast to conventional power systems, dynamic characteristics of power electronic interface strongly depends on the implemented control. This leads to imperative changes in the test and validation method of power electronic interface. This paper presents a new test and validation method based on hardware-in-loop tests in order to adapt to the future power system. Through this new method, equipment manufacturers can speed up the development-testing-certification period of their product and obtain product certification. The grid operator can obtain a credible power electronic interface - grid system stability validation report with the model verified by the hardware-in-loop test.",

keywords = "hardware-in-the-loop, power electronic interface, stability, impedance-based stability criterion",

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TY - CONF

T1 - Hardware-in-the-loop Based Grid Compatibility Test for Power Electronics Interface

AU - Zhang, Ziqian

AU - Schürhuber, Robert

AU - Fickert, Lothar

AU - Zhang, Yongming

PY - 2019/5/15

Y1 - 2019/5/15

N2 - The future power systems has a clear trend towards power electronic connected generation. In contrast to conventional power systems, dynamic characteristics of power electronic interface strongly depends on the implemented control. This leads to imperative changes in the test and validation method of power electronic interface. This paper presents a new test and validation method based on hardware-in-loop tests in order to adapt to the future power system. Through this new method, equipment manufacturers can speed up the development-testing-certification period of their product and obtain product certification. The grid operator can obtain a credible power electronic interface - grid system stability validation report with the model verified by the hardware-in-loop test.

AB - The future power systems has a clear trend towards power electronic connected generation. In contrast to conventional power systems, dynamic characteristics of power electronic interface strongly depends on the implemented control. This leads to imperative changes in the test and validation method of power electronic interface. This paper presents a new test and validation method based on hardware-in-loop tests in order to adapt to the future power system. Through this new method, equipment manufacturers can speed up the development-testing-certification period of their product and obtain product certification. The grid operator can obtain a credible power electronic interface - grid system stability validation report with the model verified by the hardware-in-loop test.

KW - hardware-in-the-loop

KW - power electronic interface

KW - stability

KW - impedance-based stability criterion

M3 - Paper

SP - 100

T2 - 2019 20th International Scientific Conference on Electric Power Engineering (EPE)

Y2 - 15 May 2019 through 17 May 2019

ER -

Hardware-in-the-loop Based Grid Compatibility Test for Power Electronics Interface

Abstract

Conference

Keywords

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