• Title/Summary/Keyword: Short Circuit Time

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A Study on Discrimination between Short-Circuit and Overload based on the Characteristics of the Fusing Current of an Electrical Wire (전선의 용단전류 특성에 근거한 단락과 과부하 판별에 관한 연구)

  • Shong, Kil-Mok;Roh, Young-Su
    • Journal of the Korean Institute of Illuminating and Electrical Installation Engineers
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    • v.21 no.10
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    • pp.176-180
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    • 2007
  • In the case that an overcurrent flows through in electrical wire due to short-circuit or overload, the wire can be fused, thereby causing an electrical fire. In the present article the characteristics of the fusing current of an electrical wire have been studied to discriminate between short-circuit and overload. In the experiment the fusing time was measured as the currents determined by Preece's equation were supplied to bare wires of various diameter. As the results of experiment, the measured fusing currents well satisfied the Onderdonk's equation. By comparing the measured results and the short current the IEC recommends, it is shown that the variable to determine the short current for a bare copper wire, k is appoximately 300. The fusing current of an electrical wire which becomes a short circuit within 5sec can be expressed as a function of diameter based on the value of k. Consequently, the equation for the fusing current provides a criterion to discriminate between short-circuit and overload.

Dynamic Analysis of Metal Transfer using VOF Method in GMAW (II) - Short Circuit Transfer Mode - (VOF 방법을 이용한 GMA 용접의 금속 이행에 관한 동적 해석 (II) - 단락 이행 모드의 해석 -)

  • 최상균;고성훈;유중돈;김희진
    • Journal of Welding and Joining
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    • v.15 no.3
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    • pp.47-55
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    • 1997
  • Dynamic characteristics of the short circuit mode are investigated using the Volume of Fluid (VOF) method. When the initial molten drop volume, contact area and wire feed rate are given, rate change of the molten bridge profiles, pressure and velocity distributions are predicted. The electromagnetic force with proper boundary conditions are included in the formulation to consider the effects of welding current. It is found that the molten metal is transferred to the weld pool mainly due to the pressure difference caused by the curvatures in the initial stage, and electromagnetic force becomes dominant factor in the final stage of short circuit transfer. Necking occurs at the contact position between the molten drop and weld pool, and the initial molten drop volume and welding current have significant effects on break-up time.

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Study of the Characteristics and Crystal Growth of a shorted Wire by Overcurrent (과전류에 의해 단락된 전선의 결정성장 특성에 관한 연구)

  • Park, Jin-Young;Bang, Sun-Bae;Ko, Young-Ho
    • Fire Science and Engineering
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    • v.31 no.6
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    • pp.83-90
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    • 2017
  • If an overcurrent exceeding the rated value is applied to an electric wire, the temperature of the electric wire increases, and the electric wire covering deteriorates to cause a short circuit. The upper limit temperature of the wire varies according to the magnitude of the overcurrent. When a short circuit occurs at each upper temperature limit, a cooling speed difference occurs during the solidification process due to the temperature difference between the short circuit temperature and the wire surface temperature. At this time, the pattern characteristics of the dendritic structure formed on the molten cross section are different. In this study, the upper temperature limit, which varied according to the overcurrent magnitude, was measured. At the time a short circuit occurred, the second branch spacing (dendrite Arm Spacing : DAS) of the dendrite was analyzed and the numerical value was quantified. The experimental results showed that the upper temperature limit increases with the magnitude of the overcurrent, and that the second branch spacing increases with increasing wire temperature.

Operating characteristics of a superconducting DC circuit breaker connected to a reactor using PSCAD/EMTDC simulation

  • Kim, Geon-woong;Jeong, Ji-sol;Park, Sang-yong;Choi, Hyo-sang
    • Progress in Superconductivity and Cryogenics
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    • v.23 no.3
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    • pp.51-54
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    • 2021
  • The DC system has less power loss compared to the AC system because there is no influence of frequency and dielectric loss. However, the zero-crossing point of the current is not detected in the event of a short circuit fault, and it is difficult to interruption due to the large fault current that occurs during the opening, so the reliability of the DC breaker is required. As a solution to this, an LC resonance DC circuit breaker combined a superconducting element has been proposed. This is a method of limiting the fault current, which rises rapidly in case of a short circuit fault, with the quench resistance of the superconducting element, and interruption the fault current passing through the zero-crossing point through LC resonance. The superconducting current limiting element combined to the DC circuit breaker plays an important role in reducing the electrical burden of the circuit breaker. However, at the beginning of a short circuit fault, superconducting devices also have a large electrical burden due to large fault currents, which can destroy the element. In this paper, the reactor is connected to the source side of the circuit using PSCAD/EMTDC. After that, the change of the fault current according to the reactor capacity and the electrical burden of the superconducting element were confirmed through simulation. As a result, it was confirmed that the interruption time was delayed as the capacity of the reactor connected to the source side increased, but peak of the fault current decreased, the zero-crossing point generation time was shortened, and the electrical burden of the superconducting element decreased.

The Study of Characteristics evaluation of short-circuit tests for Power Transformers (변압기 단락강도시험 성능평가에 관한 고찰)

  • Roh, Chang-Il;Kim, Sun-Koo;Jung, Heung-Soo;Kim, Won-Man;Lee, Dong-Jun;Kim, Sun-Ho
    • Proceedings of the KIEE Conference
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    • 2007.07a
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    • pp.913-914
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    • 2007
  • Power transformer shall be designed and constructed to withstand the mechanical and thermal stresses produced by external short circuits which include three-phase, single line to ground, double line-to-ground, and line-to-line faults on any one set terminals at a time. This paper presents the method of short-circuit test and means of evaluation during and after each test to judge the results of short-circuit tests.

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Methods for Increasing the Interrupting Performance of Are Chamber in 460V / 50KA / 100AF Molded Case Circuit Breaker (460V / 50KA / 100AF 급 배선용 차단기의 소호부 차단 성능 향상 방법)

  • Cho, Sung-Hoon;Jung, Eui-Hwan;Lee, Han-Ju;Lim, Kee-Joe;Kim, Kil-Sou
    • Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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    • 2010.06a
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    • pp.105-105
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    • 2010
  • Voltage circuit breakers are widely used in power distribution systems to interrupt fault current rapidly and to assure the reliability of the power supply. Power distribution system requires the transformer with higher capacity than ever, but this ever, but this may be the cause. of the increasing of short circuit current in contrast to conventional one when short-circuit accident is occurred. Therefore molded case circuit breaker improved in aspects of interrupting capacity of short circuit current in this system is needed. By using the proposed methods in this paper, such as new arc quenching structure of grid would contribute to minimizing the MCCB, realization of high interrupting performance and reducing the design time and development cost.

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Design of the 140W level-small sized LED Power Control Circuit (140W 급-저면적 LED 전원 제어 회로 설계)

  • An, Ho-Myoung;Lee, Juseong;Kim, Byungcheul
    • The Journal of Korea Institute of Information, Electronics, and Communication Technology
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    • v.11 no.5
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    • pp.586-592
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    • 2018
  • In this paper, HIC with various functions is proposed for the design 140W LED power control circuit. The proposed HIC integrates constant voltage/constant current circuit, short circuit protection circuit, internal constant voltage circuit, and dimmer circuit, thereby reducing the horizontal length of the PCB by 16% comparing with the conventional system. Through various experiments, we verified the performance of each block implemented inside of HIC with numerical results. (Constant voltage variation ratio: 2.9%, dimmer circuit duty variation within 5%, stable short protection at 720 mA) Since the PCB area can be significantly reduced by applying the proposed HIC. It is possible to reduce the PCB manufacturing time which takes up most of the manufacturing time, however, It is expected that the faulted power module can be replaced without replacing the whole PCB, so that maintenance / repair can be made easier.

Relationship between Spatter Generation and Waveform Factors in Transitional Condition of $CO_2$ Welding ($CO_2$ 용접의 천이이행 조건에서 스패터 발생과 파형인자와의 관계)

  • 강봉용;이창한;김희진;장희석
    • Journal of Welding and Joining
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    • v.16 no.4
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    • pp.39-46
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    • 1998
  • $CO_2$ gas shielded arc welding has been characterized with its harsh arc compared to Ar-based shielding gases and with its high level of spattere specially in welding current range of 250~300 amperes. In this range of welding current, the metal transfer mode showed to be changed from short circuit to globular with the increase of welding voltage resulting in so-called the transitional mode in which both modes of transfer appeared together. To characterize the transitional mode, the short circuit events were divided into two groups, i.e. normal short circuit (N.S.C) which has short circuit time $(t_s)$ over 2msec and instantaneous short circuit (I.S.C) of $t_s$$\leq$2msec. The experimental results showed that the number of N.S.C decreased almost linearly with the increase of welding voltage and appeared to be not related with spatter generation rate. However I.S.C became to be pronounced in the transitional condition and its number reached the maximum value at around 29.0 volts. Considering the relation with the spatter generation rate, it was found that the number of I.S.C had a very strong correlation with the spatter generation rate of the transitional condition. It was further demonstrated that spatter generation rate decreased quite linearly with the decrease of I.S.C frequency. It implies that I.S.C is the most important waveform factor controlling the spatter generation of the transitional mode, i.e. in the middle range of welding current. Based on these results, It was discussed that in the transitional mode the basic concept of waveform control for suppressing spatter generation would be different from the one applied for typical short circuit transfer mode of low welding current.

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A Study on the Short-circuit Protection System for Learning Teaching Instruction Using Incandescent Light Bulb (백열전구를 이용한 학습 교구용 단락보호장치에 대한 고찰)

  • Hong-yong Kim
    • Journal of the Society of Disaster Information
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    • v.19 no.4
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    • pp.844-850
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    • 2023
  • Purpose: This paper is about the development of a short-circuit protection power supply device using incandescent bulbs and its application for educational materials. This article, which considers electrical safety and energy conservation at the same time, has many kinds of potential applications for both educational and industrial areas. The above mentioned short-circuit protection power supply device using incandescent bulbs enhances safety and efficiency compared to normal current power supply devices. Additionally, as an educational materials, it can be used for electric safety training, and provides practical electrical safety knowledge on our actual life. Method: Using incandescent bulbs, design new type of short-circuit protection power supply device, and through verifying the function and safety of the device, make new type device, and applying it for an educational tool. Conclusion: This study is to develop new type of power supply device, and verify the possibility of the application for the device as an educational materials. Through this research, show an innovative solution, which contribute to electrical safety and energy conservation, and open the potential possibility on educational and industrial sectors.This kind of research is expected to contributes to enhanced research, and education on electrical safety and energy conservation management.

Simplified Synthetic Testing Facility with Modified TRV Circuit

  • Chong, Jin-Kyo;Lee, Kyung Seob;Lee, Chang-Hoon;Kim, Gyu-Tak
    • Journal of Electrical Engineering and Technology
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    • v.13 no.2
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    • pp.881-885
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    • 2018
  • In order to develop a gas circuit breaker (GCB), the breaking performance of the short line fault (SLF) should be prioritized over that of the breaker terminal fault (BTF). In brief, it is necessary to evaluate the thermal characteristics of the insulating gas that is filled in a GCB. In the process of developing a GCB, many companies use the simplified synthetic testing facility (SSTF).In order to evaluate the SLF breaking performance of a GCB with a long minimum arcing time, a modifications to the conventional SSTF was proposed. In this study, we developed the SSTF with a modified transient recovery voltage circuit. The performance of the newly developed SSTF was verified by an $L_{90}$ breaking performance test on a rating combination of 170 kV, 50 kA, and 60 Hz.