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    고전압 변압기 자성재료 적층 형태를 이용한 에너지 효율 향상 = Improving the Energy Efficiency Using Magnetic Materials Lamination Type of High Voltage Transformer

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    https://www.riss.kr/link?id=A108078356

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    다국어 초록 (Multilingual Abstract) kakao i 다국어 번역

    We constructed the high voltage transformer for driving a S-band RF source that confirm explosives materials. For designing a fast rise time and high energy efficiency Tesla Transformer to insert a magnetic core for minimizing inductance loss between primary and secondary coil.
    Magnetizing inductance of Tesla transformer changed by stray inductance which is generated by eddy current on the surface of magnetic core. In this paper, we calculate magnetizing inductance and energy efficiency of Tesla transformer by CST(Computer Simulation Technology) simulation of four types of laminated magnetic core's eddy current loss. Energy efficiency of design model(radial laminating) is about 3.0 ~ 5.8% higher than the existing methods, and it is thought that it will be used as a performance improvement of S-band RF radiation device.
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    We constructed the high voltage transformer for driving a S-band RF source that confirm explosives materials. For designing a fast rise time and high energy efficiency Tesla Transformer to insert a magnetic core for minimizing inductance loss between ...

    We constructed the high voltage transformer for driving a S-band RF source that confirm explosives materials. For designing a fast rise time and high energy efficiency Tesla Transformer to insert a magnetic core for minimizing inductance loss between primary and secondary coil.
    Magnetizing inductance of Tesla transformer changed by stray inductance which is generated by eddy current on the surface of magnetic core. In this paper, we calculate magnetizing inductance and energy efficiency of Tesla transformer by CST(Computer Simulation Technology) simulation of four types of laminated magnetic core's eddy current loss. Energy efficiency of design model(radial laminating) is about 3.0 ~ 5.8% higher than the existing methods, and it is thought that it will be used as a performance improvement of S-band RF radiation device.

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    참고문헌 (Reference)

    1 Paul W. Smith, "Transient Electronics" John Wiley & Son, LTD 2011

    2 Colonel Wm, "Transformer and Inductor Design Handbook" CRC Press 2011

    3 G. A. Mesyats, "Repetitively pulsed high-current accelerators with transformer charging of forming lines" 21 (21): 197-209, 2003

    4 S. D. Korovin, "Repetitive nanosecond high-voltage generator based on spiral forming line" 2 : 1249-1251, 2001

    5 V. P. Gubanov, "Periodically pulsed high voltage generator based on Tesla transformer and spiral forming line" 336-, 2001

    6 B.X. Yu, "Parametric calculation of pulse transformer with open magnetic cores based on magnetostatic-field theory" 16 (16): 010401-, 2013

    7 John Barranger, "Hysteresis And Eddy-current Losses of a Transformer Lamination viewed as an Application the Poynting Theorem"

    8 S. D. Korovin, "High-current nanosecond pulse-periodic electron accelerators utilizing a Tesla transformer" 39 : 1177-1185, 1996

    9 Peng, J., "A high repetitive rate intense electron beam accelerator based on high coupling tesla transformer" 29 (29): 55-60, 2011

    10 Zi-Cheng Zhang, "A compact repetitive gigawatt pulsed power generator with TESLA transformer" National University of Defense Technology 2008

    1 Paul W. Smith, "Transient Electronics" John Wiley & Son, LTD 2011

    2 Colonel Wm, "Transformer and Inductor Design Handbook" CRC Press 2011

    3 G. A. Mesyats, "Repetitively pulsed high-current accelerators with transformer charging of forming lines" 21 (21): 197-209, 2003

    4 S. D. Korovin, "Repetitive nanosecond high-voltage generator based on spiral forming line" 2 : 1249-1251, 2001

    5 V. P. Gubanov, "Periodically pulsed high voltage generator based on Tesla transformer and spiral forming line" 336-, 2001

    6 B.X. Yu, "Parametric calculation of pulse transformer with open magnetic cores based on magnetostatic-field theory" 16 (16): 010401-, 2013

    7 John Barranger, "Hysteresis And Eddy-current Losses of a Transformer Lamination viewed as an Application the Poynting Theorem"

    8 S. D. Korovin, "High-current nanosecond pulse-periodic electron accelerators utilizing a Tesla transformer" 39 : 1177-1185, 1996

    9 Peng, J., "A high repetitive rate intense electron beam accelerator based on high coupling tesla transformer" 29 (29): 55-60, 2011

    10 Zi-Cheng Zhang, "A compact repetitive gigawatt pulsed power generator with TESLA transformer" National University of Defense Technology 2008

    11 J. L. LIU, "A Tesla pulse transformer for spiral water pulse forming line charging" 25 (25): 305-312, 2007

    12 Young-Kyung Jeong ; Moon-Qee Lee ; Dong-Gi Youn, "A Study on Optimization of Compact High-voltage Generator Based on Magnetic-core Tesla Transformer" 대한전기학회 9 (9): 1349-1354, 2014

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    학술지 이력

    학술지 이력
    연월일 이력구분 이력상세 등재구분
    2023 평가 해외DB학술지평가 신청대상 (해외등재 학술지 평가)
    2020-01-01 등재 등재학술지 유지 (해외등재 학술지 평가) KCI등재
    2010-01-01 등재 등재학술지 유지 (등재유지) KCI등재
    2007-01-01 등재 학술지 통합 (기타) KCI등재
    2001-01-01 등재 등재학술지 유지 (등재유지) KCI등재
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    기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
    2016 0.27 0.27 0.24
    KCIF(4년) KCIF(5년) 중심성지수(3년) 즉시성지수
    0.21 0.19 0.366 0.08
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