• Journal of the Korea Institute of Information and Communication Engineering
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• v.21 no.5
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• pp.885-892
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• 2017

In this paper, we proposed a novel crowbar circuit for high-speed discharge charge switching to solve discharge charge-time delay of supply voltage in the conventional crowbar circuit. The proposed circuit is designed to increase the charge-speed after high-speed discharge of supply voltage, thereby reducing the time exposed to radiation damage and, the normal operation time of electronic system after passing the pulse radiation. The simulation of the discharge charge-times before the implement of the hardware is conducted using Cadence's pspice tool, and DUT (Device Under Test) board is fabricated in the device level. The comparison measurement of the crowbar circuits is performed on the satellite-electronic device for 24V. As the result, we confirmed the high-speed function of the proposed circuit by improvement of the discharge-speed 96.8% and the charge-speed 27.3% as compared with the conventional circuit.

• The Journal of Information Technology
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• v.7 no.1
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• pp.155-161
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• 2004

During normal machine operation, partial discharge(PD) measurements were performed with turbine generator analyzer(TGA) in imitation stator winding of high voltage motors. The motor was energized to 4.47kV, 6.67, respectively. Applied voltage to Imitation winding was used two voltage level, 4.47[kV] and 6.67[kV]. Motors having imitation stator winding were installed with 80pF capacitive couplers at the terminal box. Case of PD Pattern regarding applied voltage phase angel, the PD patterns were displayed two dimensional and three dimensional. TGA summarizes each plot with two quantities such as the normalized quantity number(NQN) and the peak PD magnitude(Qm). As the result, we could discrimidate using TGA the difference of internal and surface discharge for imitation stator winding. We have used the other technique, in order to feature extraction of faulty signals on stator winding, Daubechies Discrete wavelet transform and Harmonics analysis(FFT) about faulty signals.

• The Journal of Engineering Geology
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• v.23 no.1
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• pp.29-36
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• 2013

The application of appropriate rehabilitation methods can improve the efficiency of clogged wells and extend their life. In this paper, we study the feasibility of well cleaning using high-voltage pulsed discharge, in which electrical energy is used to produce impulsive pressure in water, in contrast to conventional methods that employ chemical or pneumatic energy sources. This technique utilizes the compressive shock wave generated by the expansive force of hot, dense plasma that is produced during a pulsed discharge in the gap between electrodes immersed in water. Compared with conventional techniques, this method is simple, and easy to handle and control. Using a capacitive pulsed power system with an electrical energy of 200 J, an impulsive pressure of 10.7 MPa is achieved at the position 6 cm away from the discharge gap. The amplitude of the impulsive pressure was easily controlled by adjusting the charging voltage of the capacitor and was almost linearly proportional to peak discharge current. The technique achieved good results in cleaning feasibility tests with mock-up specimens similar to clogged well screens.

• Journal of the Institute of Electronics and Information Engineers
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• v.51 no.2
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• pp.168-172
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• 2014

A new sustain driving method is proposed to improve luminous efficiency by the generation of the self-erasing discharge during a sustain period in AC plasma display panel. As one subfield time in the conventional AC PDP is divided into the reset, address, and sustain period. Among them, as the square sustain waveform is alternately applied to the X and Y electrodes on the front plate during the sustain period, the plasma discharge for displaying the image is continuously produced. Meanwhile, in the conventional driving method, the address waveform applied to the A electrode on the rear plate is only driving during an address period and grounded during a sustain period. In this experiment, the negative pulse is applied to the A electrode at the latter part of the sustain pulse for improving the luminous efficiency producing the self-erasing discharge during the sustain period. The negative pulse on the A electrode can change from the space to the wall charge and induce the additional discharge by the accumulated wall charge when the voltages of three electrodes are grounded. As a result, the luminous efficiency will be measured with changes in the voltage level of the A electrode and the new driving method can be improved to the luminous efficiency about 32 % compared with the conventional driving method.

• Proceedings of the KIEE Conference
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• 1997.07d
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• pp.1612-1614
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• 1997

고분자 절연재료의 결함에 의하여 발생하는 부분방전은 고분자 재료의 화학적, 전기적 열화를 가져오며 때로는 전기 트리로 성장하여 재료의 절연파괴에 이르게 하기도 한다. 따라서 부분 방전 현상의 메카니즘 뿐만 아니라 측정법에 대한 많은 연구들이 있었으나 부분방전 열화가 고분자 재료에 미치는 열화과정에 대하여서는 명확한 메카니즘이 보고되지 않았다. 본 논문에서는 부분방전에 의한 고분자 절연재료 내의 공간전하 축적 현상에 대하여 연구하였다. 고분자 재료로는 현재 전력용 케이블에 주로 사용되고 있는 가교 폴리에틸렌(XLPE)를 사용하였으며, 1kHz의 주파수로6kV, 8kV, 10kv 및 11kV로 수시간 부분방전을 발생시킨 후 펄스정전응력법(PEA)으로 공간전하를 측정하였다. 실험결과 부분방전에 의하여 고분자 재료 내에 이종공간전하의 주입이 확인되었으며 따라서 부분방전에 의하여 고분자 재료가 열화되며 이러한 열화에 의한 전자의 방출율의 변화와 같은 고분자 표면의 상태 변화에 의하여 부분방전의 패턴에 지배적인 영향을 미친다. 이러한 공간전하의 축적에 의하여 부분방전 현상에 미치는 영향은 추후 보고할 예정이다.

• Proceedings of the KIPE Conference
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• 2019.11a
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• pp.49-51
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• 2019

본 논문은 고전압 양극성 펄스 모듈레이터에 대해 소개한다. 모듈레이터는 충전을 위한 공진형 컨버터와 고전압 펄스를 생성하기 위한 12개의 파워셀로 구성된다. 12개의 파워셀은 다중 권선 변압기를 통해 모든 셀이 병렬로 충전되며, 방전 시에는 모든 셀이 직렬로 연결되어 고전압을 생성한다. 12개의 파워셀을 구성하는 48개의 스위치에 절연된 전력과 신호를 동시에 공급하기 위해, 2개의 고전압 케이블로 구성된 양극성 컨트롤 루프가 설계되었다. 최종적으로 10kV, 100A, 3kHz 사양을 갖는 양극성 펄스 모듈레이터가 구현되었으며, 저항부하 및 리액터 부하조건에서 테스트 되었다. 실험결과를 통해 제안하는 양극성 펄스 모듈레이터의 신뢰성이 검증되었다.

• The Transactions of the Korean Institute of Power Electronics
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• v.2 no.2
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• pp.1-7
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• 1997

커패시터 방전회로의 제작 및 시험을 위해서는 고가의 비용과 위험요소가 내재되어 있으며 특히 고전력 응용을 위해서는 이러한 요소는 더욱 커지게 된다. 그 대체방법으로는 컴퓨터를 이용하여 이 회로의 동작을 모델링하고 시뮬레이션하는 것이다. 본 연구에서는 커패시터 방전 임펄스 착자가 착아 요크 시스템을 위한 SPICE 모델을 개발하고 시뮬레이션 결과를 실제 시스템의 측정치와 비교하였다. 또한 착자기 시스템의 방전회로를 위한 온도산정방법을 제안하였다. 특히 임펄스 착자기의 방전회로의 온도산정은 착자회로 설계의 중요한 지침이 되므로 극히 중요하다. 본 연구에 이용된 착자기는 저손실 유입 커패시터이며, 최대 1200[V]의 충전이 가능하다. 이러한 착자 모델의 개발을 통하여 고임펄스 방전 회로의 설계 및 개발에 소요되는 시간 및 비용을 절약하는데 크게 기여할 것이다.

• Proceedings of the KIEE Conference
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• 2009.07a
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• pp.1479_1480
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• 2009

부분방전시험은 고전압 고정자 권선의 절연상태를 검사, 평가 할 수 있는 중요한 수단이다. 전동기와 발전기에서 일어나는 절연 악화의 징후로써 부분방전이 발생되며 이러한 부분방전 결함의 정확한 위치 확인이 필요하다. 본 논문에서는 회전기 고정자권선의 결함위치를 판정하기위한 Prototype의 코로나 프로브를 설계하고자 Ferrite core를 이용한 Corona Probe를 제작하였으며 모의 결함을 가지는 6.6[kV] 회전기 고정자권선에 적용하여 부분방전펄스를 측정 하였으며 설계된 Probe의 신뢰성을 확인하고자 상용 HFCT센서와 PPM97(Corona Probe)센서를 통하여 검출감도를 비교분석하였다.

• Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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• 1999.11a
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• pp.169-172
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• 1999

In this experimental study we Proposed the double dielectric barrier discharge (DDBD) reactor to produce as high an electric field as possible. The experiment are conducted for applied voltage from 15 to 20[tV], flow gas rage at 2[1/min] and pulse rate at 120[pulses/s] and 240[pulses/s]. SPD connection of DDBD which combine the surface discharge with the silence discharge was most effective to reduce the NOx. In the decomposition efficiency per watt, the low pulse rate gave hotter efficiency than that of the high pulse rate. However in DeNOx rate, the high pulse rate gave better performance than that of the low pulse rate. NOx removal rate increased with increasing the applied voltage in all reactors.

• Journal of Industrial Technology
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• v.21 no.B
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• pp.155-161
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• 2001

In this study, we analyzed the $NO_X$ removal efficiency and particle size distribution by the pulsed corona discharge process and investigated the effect of several process variables. The NO removal efficiencies and the particle characteristics were measured and analyzed as the function of initial concentrations of NO, $H_2O$, and $NH_3$, applied voltage, pulse frequency and residence time. As the frequency of applied voltage increases, or as the applied voltage increases or as the residence time increases, the NO removal efficiency increases. The change of initial $NH_3$ and $H_2O$ concentrations do not affect the NO removal efficiency significantly. The particle concentration and size increases with the increases of initial NO concentration, residence time and applied voltage.