Cascaded H7 Current Source Converter Based Power Transmission Systems and Fault Analysis

Weiqi Wang; Feng Gao; Yongheng Yang; Frede Blaabjerg; Rong  Li; Wanjian Bai

doi:10.1109/SPEC.2017.8333582

Cascaded H7 Current Source Converter Based Power Transmission Systems and Fault Analysis

Weiqi Wang, Feng Gao, Yongheng Yang, Frede Blaabjerg, Rong Li, Wanjian Bai

Publikation: Bidrag til bog/antologi/rapport/konference proceeding › Konferenceartikel i proceeding › Forskning › peer review

2 Citationer (Scopus)

Abstract

The High Voltage Direct Current (HVDC) technology is considered as one of the most suitable solutions for bulky and long-distance power transmission. However, the state-of-the-art HVDC solution have certain limitations. This paper presents an overview of current HVDC technologies. More importantly, a high power trasmission technology based on cascaded H7 Current Source Converters (CSC) is proposed. The proposed system features classic CSC HVDC characteristics combined with superior efficiency characteristics. Control and operational schemes are presented. In addition, fault issues for the HVDC system are analyzed. Simulation and experimental results are provided to verify the proposal.

Originalsprog	Engelsk
Titel	Proceedings of 3rd IEEE Southern Power Electronics Conference, SPEC 2017
Antal sider	7
Forlag	IEEE Press
Publikationsdato	dec. 2017
Sider	510-516
ISBN (Elektronisk)	978-1-5090-6425-0
DOI	https://doi.org/10.1109/SPEC.2017.8333582
Status	Udgivet - dec. 2017
Begivenhed	3rd IEEE Southern Power Electronics Conference, SPEC 2017 - Puerto Varas, Chile Varighed: 4 dec. 2017 → 7 dec. 2017

Konference

Konference	3rd IEEE Southern Power Electronics Conference, SPEC 2017
Land/Område	Chile
By	Puerto Varas
Periode	04/12/2017 → 07/12/2017

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10.1109/SPEC.2017.8333582

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Citationsformater

@inproceedings{be4c835c5c3e4f798fc74713b944c50b,

title = "Cascaded H7 Current Source Converter Based Power Transmission Systems and Fault Analysis",

abstract = "The High Voltage Direct Current (HVDC) technology is considered as one of the most suitable solutions for bulky and long-distance power transmission. However, the state-of-the-art HVDC solution have certain limitations. This paper presents an overview of current HVDC technologies. More importantly, a high power trasmission technology based on cascaded H7 Current Source Converters (CSC) is proposed. The proposed system features classic CSC HVDC characteristics combined with superior efficiency characteristics. Control and operational schemes are presented. In addition, fault issues for the HVDC system are analyzed. Simulation and experimental results are provided to verify the proposal. ",

keywords = "H7 current source converter (CSC), High voltage direct current (HVDC), Efficiency",

author = "Weiqi Wang and Feng Gao and Yongheng Yang and Frede Blaabjerg and Rong Li and Wanjian Bai",

year = "2017",

month = dec,

doi = "10.1109/SPEC.2017.8333582",

language = "English",

pages = "510--516",

booktitle = "Proceedings of 3rd IEEE Southern Power Electronics Conference, SPEC 2017",

publisher = "IEEE Press",

note = "3rd IEEE Southern Power Electronics Conference, SPEC 2017 ; Conference date: 04-12-2017 Through 07-12-2017",

}

Wang, W, Gao, F, Yang, Y, Blaabjerg, F, Li, R & Bai, W 2017, Cascaded H7 Current Source Converter Based Power Transmission Systems and Fault Analysis. i Proceedings of 3rd IEEE Southern Power Electronics Conference, SPEC 2017. IEEE Press, s. 510-516, 3rd IEEE Southern Power Electronics Conference, SPEC 2017, Puerto Varas, Chile, 04/12/2017. https://doi.org/10.1109/SPEC.2017.8333582

Cascaded H7 Current Source Converter Based Power Transmission Systems and Fault Analysis. / Wang, Weiqi; Gao, Feng; Yang, Yongheng et al.
Proceedings of 3rd IEEE Southern Power Electronics Conference, SPEC 2017. IEEE Press, 2017. s. 510-516.

Publikation: Bidrag til bog/antologi/rapport/konference proceeding › Konferenceartikel i proceeding › Forskning › peer review

TY - GEN

T1 - Cascaded H7 Current Source Converter Based Power Transmission Systems and Fault Analysis

AU - Wang, Weiqi

AU - Gao, Feng

AU - Yang, Yongheng

AU - Blaabjerg, Frede

AU - Li, Rong

AU - Bai, Wanjian

PY - 2017/12

Y1 - 2017/12

N2 - The High Voltage Direct Current (HVDC) technology is considered as one of the most suitable solutions for bulky and long-distance power transmission. However, the state-of-the-art HVDC solution have certain limitations. This paper presents an overview of current HVDC technologies. More importantly, a high power trasmission technology based on cascaded H7 Current Source Converters (CSC) is proposed. The proposed system features classic CSC HVDC characteristics combined with superior efficiency characteristics. Control and operational schemes are presented. In addition, fault issues for the HVDC system are analyzed. Simulation and experimental results are provided to verify the proposal.

AB - The High Voltage Direct Current (HVDC) technology is considered as one of the most suitable solutions for bulky and long-distance power transmission. However, the state-of-the-art HVDC solution have certain limitations. This paper presents an overview of current HVDC technologies. More importantly, a high power trasmission technology based on cascaded H7 Current Source Converters (CSC) is proposed. The proposed system features classic CSC HVDC characteristics combined with superior efficiency characteristics. Control and operational schemes are presented. In addition, fault issues for the HVDC system are analyzed. Simulation and experimental results are provided to verify the proposal.

KW - H7 current source converter (CSC)

KW - High voltage direct current (HVDC)

KW - Efficiency

U2 - 10.1109/SPEC.2017.8333582

DO - 10.1109/SPEC.2017.8333582

M3 - Article in proceeding

SP - 510

EP - 516

BT - Proceedings of 3rd IEEE Southern Power Electronics Conference, SPEC 2017

PB - IEEE Press

T2 - 3rd IEEE Southern Power Electronics Conference, SPEC 2017

Y2 - 4 December 2017 through 7 December 2017

ER -

Cascaded H7 Current Source Converter Based Power Transmission Systems and Fault Analysis

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