The short-circuit characteristics of a DC reactor type superconducting fault current limiter with fault detection and signal control of the power converter

Min Cheol Ahn; Hyoungku Kang; Duck Kweon Bae; Dong Keun Park; Yong Soo Yoon; Sang Jin Lee; Tae Kuk Ko

doi:10.1109/TASC.2005.849462

The short-circuit characteristics of a DC reactor type superconducting fault current limiter with fault detection and signal control of the power converter

Min Cheol Ahn, Hyoungku Kang, Duck Kweon Bae, Dong Keun Park, Yong Soo Yoon, Sang Jin Lee, Tae Kuk Ko

Department of Electrical and Electronic Engineering

Research output: Contribution to journal › Article › peer-review

22 Citations (Scopus)

Abstract

In general case of DC reactor type superconducting fault current limiter (SFCL), a fault current gradually increases during the fault. It takes above 5 cycles to cut off the fault in the existing power system installed the conventional circuit breakers (CBs). Therefore, the fault current increases during the fault even if the SFCL is installed. This paper proposes a technique for decaying the fault current with the function of the fault detection and control of power converter of the SFCL. Using the proposed method, the fault current can decay after 1-2 cycles when the fault occurs. To analyze this technique, three-phase 6.6 kV/200 A SFCL was fabricated. The SFCL has just one DC reactor, an AC to DC power converter which has thyristors as the rectifying device, and a three-phase transformer, which is called magnetic core reactor (MCR). The short-circuit tests of this SFCL were performed successfully. Comparing the result using the proposed technique with the typical result, the fault current is decreased effectively by the proposed technique. This result shows that this SFCL using the fault detection and control of power converter can be applied to the existing power system which has conventional CBs.

Original language	English
Pages (from-to)	2102-2105
Number of pages	4
Journal	IEEE Transactions on Applied Superconductivity
Volume	15
Issue number	2 PART II
DOIs	https://doi.org/10.1109/TASC.2005.849462
Publication status	Published - 2005 Jun

Bibliographical note

Funding Information:
Manuscript received October 5, 2004. This research was supported by a grant from the Center for Applied Superconductivity Technology of the 21st Century Frontier R&D Program funded by the Ministry of Science and Technology, Republic of Korea. M. C. Ahn, H. Kang, D. K. Bae, D. K. Park, and T. K. Ko are with the Department of Electrical and Electronic Engineering, Yonsei University, Seoul, Korea (e-mail: mcahn@yonsei.ac.kr). Y. S. Yoon is with the Department of Electrical Engineering, Ansan College of Technology, Ansan, Korea (e-mail: ysyoon@ansantc.ac.kr). S. J. Lee is with the Department of Electrical Engineering, Uiduk University, Kyungju, Korea (e-mail: sjlee@uiduk.ac.kr). Digital Object Identifier 10.1109/TASC.2005.849462

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials
Condensed Matter Physics
Electrical and Electronic Engineering

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10.1109/TASC.2005.849462

Cite this

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title = "The short-circuit characteristics of a DC reactor type superconducting fault current limiter with fault detection and signal control of the power converter",

abstract = "In general case of DC reactor type superconducting fault current limiter (SFCL), a fault current gradually increases during the fault. It takes above 5 cycles to cut off the fault in the existing power system installed the conventional circuit breakers (CBs). Therefore, the fault current increases during the fault even if the SFCL is installed. This paper proposes a technique for decaying the fault current with the function of the fault detection and control of power converter of the SFCL. Using the proposed method, the fault current can decay after 1-2 cycles when the fault occurs. To analyze this technique, three-phase 6.6 kV/200 A SFCL was fabricated. The SFCL has just one DC reactor, an AC to DC power converter which has thyristors as the rectifying device, and a three-phase transformer, which is called magnetic core reactor (MCR). The short-circuit tests of this SFCL were performed successfully. Comparing the result using the proposed technique with the typical result, the fault current is decreased effectively by the proposed technique. This result shows that this SFCL using the fault detection and control of power converter can be applied to the existing power system which has conventional CBs.",

author = "Ahn, {Min Cheol} and Hyoungku Kang and Bae, {Duck Kweon} and Park, {Dong Keun} and Yoon, {Yong Soo} and Lee, {Sang Jin} and Ko, {Tae Kuk}",

note = "Funding Information: Manuscript received October 5, 2004. This research was supported by a grant from the Center for Applied Superconductivity Technology of the 21st Century Frontier R&D Program funded by the Ministry of Science and Technology, Republic of Korea. M. C. Ahn, H. Kang, D. K. Bae, D. K. Park, and T. K. Ko are with the Department of Electrical and Electronic Engineering, Yonsei University, Seoul, Korea (e-mail: mcahn@yonsei.ac.kr). Y. S. Yoon is with the Department of Electrical Engineering, Ansan College of Technology, Ansan, Korea (e-mail: ysyoon@ansantc.ac.kr). S. J. Lee is with the Department of Electrical Engineering, Uiduk University, Kyungju, Korea (e-mail: sjlee@uiduk.ac.kr). Digital Object Identifier 10.1109/TASC.2005.849462",

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The short-circuit characteristics of a DC reactor type superconducting fault current limiter with fault detection and signal control of the power converter. / Ahn, Min Cheol; Kang, Hyoungku; Bae, Duck Kweon et al.
In: IEEE Transactions on Applied Superconductivity, Vol. 15, No. 2 PART II, 06.2005, p. 2102-2105.

Research output: Contribution to journal › Article › peer-review

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T1 - The short-circuit characteristics of a DC reactor type superconducting fault current limiter with fault detection and signal control of the power converter

AU - Ahn, Min Cheol

AU - Kang, Hyoungku

AU - Bae, Duck Kweon

AU - Park, Dong Keun

AU - Yoon, Yong Soo

AU - Lee, Sang Jin

AU - Ko, Tae Kuk

N1 - Funding Information: Manuscript received October 5, 2004. This research was supported by a grant from the Center for Applied Superconductivity Technology of the 21st Century Frontier R&D Program funded by the Ministry of Science and Technology, Republic of Korea. M. C. Ahn, H. Kang, D. K. Bae, D. K. Park, and T. K. Ko are with the Department of Electrical and Electronic Engineering, Yonsei University, Seoul, Korea (e-mail: mcahn@yonsei.ac.kr). Y. S. Yoon is with the Department of Electrical Engineering, Ansan College of Technology, Ansan, Korea (e-mail: ysyoon@ansantc.ac.kr). S. J. Lee is with the Department of Electrical Engineering, Uiduk University, Kyungju, Korea (e-mail: sjlee@uiduk.ac.kr). Digital Object Identifier 10.1109/TASC.2005.849462

PY - 2005/6

Y1 - 2005/6

N2 - In general case of DC reactor type superconducting fault current limiter (SFCL), a fault current gradually increases during the fault. It takes above 5 cycles to cut off the fault in the existing power system installed the conventional circuit breakers (CBs). Therefore, the fault current increases during the fault even if the SFCL is installed. This paper proposes a technique for decaying the fault current with the function of the fault detection and control of power converter of the SFCL. Using the proposed method, the fault current can decay after 1-2 cycles when the fault occurs. To analyze this technique, three-phase 6.6 kV/200 A SFCL was fabricated. The SFCL has just one DC reactor, an AC to DC power converter which has thyristors as the rectifying device, and a three-phase transformer, which is called magnetic core reactor (MCR). The short-circuit tests of this SFCL were performed successfully. Comparing the result using the proposed technique with the typical result, the fault current is decreased effectively by the proposed technique. This result shows that this SFCL using the fault detection and control of power converter can be applied to the existing power system which has conventional CBs.

AB - In general case of DC reactor type superconducting fault current limiter (SFCL), a fault current gradually increases during the fault. It takes above 5 cycles to cut off the fault in the existing power system installed the conventional circuit breakers (CBs). Therefore, the fault current increases during the fault even if the SFCL is installed. This paper proposes a technique for decaying the fault current with the function of the fault detection and control of power converter of the SFCL. Using the proposed method, the fault current can decay after 1-2 cycles when the fault occurs. To analyze this technique, three-phase 6.6 kV/200 A SFCL was fabricated. The SFCL has just one DC reactor, an AC to DC power converter which has thyristors as the rectifying device, and a three-phase transformer, which is called magnetic core reactor (MCR). The short-circuit tests of this SFCL were performed successfully. Comparing the result using the proposed technique with the typical result, the fault current is decreased effectively by the proposed technique. This result shows that this SFCL using the fault detection and control of power converter can be applied to the existing power system which has conventional CBs.

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ER -

The short-circuit characteristics of a DC reactor type superconducting fault current limiter with fault detection and signal control of the power converter

Abstract

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