Droop control implementation in solid state transformer

Muhammad Syahir Bin Turiman; Nguyen Duy-Dinh; Goro Fujita

doi:10.1109/SEATUC.2018.8788870

Droop control implementation in solid state transformer

Muhammad Syahir Bin Turiman, Nguyen Duy-Dinh, Goro Fujita

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

In this paper, a simulation study is done on the performance of solid state transformer (SST) based micro-grid with implementation of droop control system. SST, which consists of AC-DC converter, DC-DC converter, and DC-AC converter is being employed as the interface between the main grid and the micro-grid. As DC link is introduced at the DC-DC converter side of the SST, voltage and frequency isolation between the main grid and the micro-grid can be achieved. Thus, a frequency droop control system can be implemented at the output of the SST, without affecting the frequency of the main grid. This is an advantage for the active generators of dispersed generation (DG) such as photovoltaic or wind generation system in the micro-grid area, as they have to change their power dispatching based on the frequency droop. Simulation done in Matlab Simulink shows the performance of the developed system.

Original language	English
Title of host publication	Proceedings - 12th SEATUC Symposium, SEATUC 2018
Publisher	Institute of Electrical and Electronics Engineers Inc.
ISBN (Electronic)	9781538650943
DOIs	https://doi.org/10.1109/SEATUC.2018.8788870
Publication status	Published - 2018 Mar 1
Event	12th South East Asian Technical University Consortium Sysmposium, SEATUC 2018 - Yogyakarta, Indonesia Duration: 2018 Mar 12 → 2018 Mar 13

Publication series

Name	Proceedings - 12th SEATUC Symposium, SEATUC 2018

Conference

Conference	12th South East Asian Technical University Consortium Sysmposium, SEATUC 2018
Country	Indonesia
City	Yogyakarta
Period	18/3/12 → 18/3/13

Keywords

Active generators
Frequency droop control
Micro-grid
Solid state transformer

ASJC Scopus subject areas

Computer Networks and Communications
Computer Science Applications
Energy Engineering and Power Technology
Industrial and Manufacturing Engineering
Control and Optimization

Access to Document

10.1109/SEATUC.2018.8788870

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Droop control implementation in solid state transformer. / Turiman, Muhammad Syahir Bin; Duy-Dinh, Nguyen; Fujita, Goro.

Proceedings - 12th SEATUC Symposium, SEATUC 2018. Institute of Electrical and Electronics Engineers Inc., 2018. 8788870 (Proceedings - 12th SEATUC Symposium, SEATUC 2018).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Turiman, MSB, Duy-Dinh, N & Fujita, G 2018, Droop control implementation in solid state transformer. in Proceedings - 12th SEATUC Symposium, SEATUC 2018., 8788870, Proceedings - 12th SEATUC Symposium, SEATUC 2018, Institute of Electrical and Electronics Engineers Inc., 12th South East Asian Technical University Consortium Sysmposium, SEATUC 2018, Yogyakarta, Indonesia, 18/3/12. https://doi.org/10.1109/SEATUC.2018.8788870

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abstract = "In this paper, a simulation study is done on the performance of solid state transformer (SST) based micro-grid with implementation of droop control system. SST, which consists of AC-DC converter, DC-DC converter, and DC-AC converter is being employed as the interface between the main grid and the micro-grid. As DC link is introduced at the DC-DC converter side of the SST, voltage and frequency isolation between the main grid and the micro-grid can be achieved. Thus, a frequency droop control system can be implemented at the output of the SST, without affecting the frequency of the main grid. This is an advantage for the active generators of dispersed generation (DG) such as photovoltaic or wind generation system in the micro-grid area, as they have to change their power dispatching based on the frequency droop. Simulation done in Matlab Simulink shows the performance of the developed system.",

keywords = "Active generators, Frequency droop control, Micro-grid, Solid state transformer",

author = "Turiman, {Muhammad Syahir Bin} and Nguyen Duy-Dinh and Goro Fujita",

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AU - Duy-Dinh, Nguyen

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N2 - In this paper, a simulation study is done on the performance of solid state transformer (SST) based micro-grid with implementation of droop control system. SST, which consists of AC-DC converter, DC-DC converter, and DC-AC converter is being employed as the interface between the main grid and the micro-grid. As DC link is introduced at the DC-DC converter side of the SST, voltage and frequency isolation between the main grid and the micro-grid can be achieved. Thus, a frequency droop control system can be implemented at the output of the SST, without affecting the frequency of the main grid. This is an advantage for the active generators of dispersed generation (DG) such as photovoltaic or wind generation system in the micro-grid area, as they have to change their power dispatching based on the frequency droop. Simulation done in Matlab Simulink shows the performance of the developed system.

AB - In this paper, a simulation study is done on the performance of solid state transformer (SST) based micro-grid with implementation of droop control system. SST, which consists of AC-DC converter, DC-DC converter, and DC-AC converter is being employed as the interface between the main grid and the micro-grid. As DC link is introduced at the DC-DC converter side of the SST, voltage and frequency isolation between the main grid and the micro-grid can be achieved. Thus, a frequency droop control system can be implemented at the output of the SST, without affecting the frequency of the main grid. This is an advantage for the active generators of dispersed generation (DG) such as photovoltaic or wind generation system in the micro-grid area, as they have to change their power dispatching based on the frequency droop. Simulation done in Matlab Simulink shows the performance of the developed system.

KW - Active generators

KW - Frequency droop control

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KW - Solid state transformer

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Droop control implementation in solid state transformer

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Keywords

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