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Experimental Analysis of the Effect of Oil Viscosity on the Breakdown Strength of Cable Insulation
Seung-won Lee, Ik-su Kwon, Byung-bae Park, Dong-eun Kim, Hae-jong Kim
J Electr Electron Mater 2026;39(1):65-69.   Published online January 1, 2026
DOI: https://doi.org/10.4313/JEEM.2026.39.1.8
Breakdown strength is an essential parameter for evaluating the electrical performance and degradation behavior of cable insulation and IEC 60243 also emphasizes its importance for detecting changes in insulation characteristics due to aging. However, the current IEC standards are mainly limited to specifying electrode configurations and test voltage conditions for breakdown tests, while the influence of insulating oil, is not clearly addressed. In this study, the breakdown strength of a 66 kV wet-type submarine cable was experimentally evaluated using insulating oils with different kinematic viscosities of 10, 100, 500, and 1,000 cSt in order to achieve reliable and reproducible breakdown measurements. The experimental results show that the measured breakdown strength decreases by up to approximately 20% depending on the oil viscosity. This indicates that the viscosity of the insulating oil has a significant influence on the measured breakdown strength during breakdown test. Therefore, it is necessary to perform breakdown strength measurements under identical test conditions, including the physical properties of the insulating oil, to ensure reliable comparison and accurate assessment of insulation performance and degradation characteristics.
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New Driving Waveform to Reduce Background Light by Low Scan Voltage in AC Plasma Display Panel
Byung-gwon Cho
J Electr Electron Mater 2025;38(3):290-295.   Published online May 1, 2025
DOI: https://doi.org/10.4313/JKEM.2025.38.3.8
The characteristics of each address discharge were investigated when the voltages of the scan and common electrodes were lowered simultaneously during an address period under the same address voltage conditions in an AC plasma display panel. It was confirmed that the delay time of address discharge shortened as the voltage decreased. However, the background light increased because the low scanning voltage generated more discharge between the electrodes of the upper and lower plates in the reset period. To lower the background light, a positive voltage was applied to the address electrode of the lower panel during the period when the rising ramp wave was applied, and a floating voltage was applied to the address electrode during the period when the falling ramp wave was applied during the reset period. As a result, the background light could be lowered by about 30%.
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Analysis of Key Parameters for the Printing Process Optimization of a Fluid Dispensing Systems
Hoseung Kang, Haechang Jeong, Soonho Hong, Nam Kyung Yoon, Sunyoung Sohn
J Electr Electron Mater 2024;37(4):382-393.   Published online July 1, 2024
DOI: https://doi.org/10.4313/JKEM.2024.37.4.4
The Microplotter system with a fluid dispensing method, sprays fluid based on ultrasonic pumping through piezoelectric devices. This technique can possible for various materials with a wide range of viscosities to be printed in microscale. In this paper, we introduces dispenser printing technology as well as aim to understand and apply various processes using the equipment. In addition, we will explain how to optimize the equipment by adjusting parameters such as spray intensity, tip height during printing, and patterning speed. By utilizing Microplotter’s advantage of being compatible with a wide range of fluids, including metal nanoparticles, carbon nanotubes, DNA, and proteins, it is expected to be used in various fields such as printed electronics, biotechnology, and chemical engineering.
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Study on the Luminescent Characteristics of YPO4:Pr3+ Phosphor by the Content Ratio of Pr6O11 and Calcination Temperature
Min Jun Kim, Seong Eui Lee
J Electr Electron Mater 2024;37(1):68-73.   Published online January 1, 2024
DOI: https://doi.org/10.4313/JKEM.2024.37.1.9
In this study, the praseodymium-doped yttrium phosphate (YPO4:Pr3+) powder, which is well known for its high luminescent efficiency, and long life in the UV range, was synthesized with various content ratios of Pr6O11 and calcination temperature. Crystal structure and luminescent properties of various phosphor powders based on different concentrations and calcination conditions were characterized by XRD (X-Ray Diffraction) and PL (photoluminescence) spectrometers. From the XRD analysis, the structure of YPO4:Pr3+ which is calcinated at 1,200℃ was stable tetragonal phase and crystal size was calculated about 25 nm by Scherrer equation. PL emission of YPO4:Pr3+ with a different content ratio of Pr6O11 by excitation λexc=250 nm shows that 0.75 mol% phosphor powder has maximum PL intensity and PL decreases with the increase of the ratio of Pr6O11 up to 1.25 mol% which is caused by changes of crystallinity of phosphor powders. With increasing dopant ratio, photoluminescence Emission decreases due to Concentration quenching, which is commonly observed in phosphors. Currently, 0.75 mol% is considered the optimal doping concentration. A hybrid ultraviolet-emitting device incorporating YPO4:Pr3+ fluorescent material with plasma discharge was fabricated to enhance UV germicidal effects while minimizing ozone generation. UV emission from the plasma discharge device was shown at about 200 nm and 350 nm which caused additional emission of the regions of 250 nm, 315 nm, and 370 nm from the YPO4:Pr3+ phosphor.
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Study on Characteristics of Write Discharge with Single Sustain Waveform in AC Plasma Display Panel
Byung-gwon Cho
J Electr Electron Mater 2023;36(1):56-61.   Published online January 1, 2023
DOI: https://doi.org/10.4313/JKEM.2023.36.1.9
The characteristics of write discharge were investigated when the conventional driving method with the unipolar sustain voltages, and the single sustain driving method applying the bipolar sustain voltage were applied in an AC plasma display. In the case of having a single sustain waveform, the strength of the write discharge is weakened compared to the conventional driving method during the address period, because the wall charge inside the panel is more dissipated by the lower scanning voltage. In the driving method with a single sustain waveform, the bias voltage of the other electrodes was changed to improve the write discharge characteristics. As a result, the intensity of the discharge was enhanced by 32% and the delay time was shortened by 60 μs.
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Design and Fabrication of Rogowski-type Partial Discharge Sensor for Insulation Diagnosis of Cast-Resin Transformers
Gyeong-yeol Lee, Sung-wook Kim, Gyung-suk Kil
J Electr Electron Mater 2022;35(6):594-602.   Published online November 1, 2022
DOI: https://doi.org/10.4313/JKEM.2022.35.6.8
Cast-resin transformers are widely installed in various electrical power systems because of their low operating cost and low influence on external environmental factors. However, when they have an internal defect during the manufacturing process or operation, a partial discharge (PD) occurs, and eventually destroys the insulation. In this paper, a Rogowski-type PD sensor was studied to replace commercial PD sensors used for the insulation diagnosis of power apparatus. The proposed PD sensor was manufactured with four different types of PCB-based winding structures, and it was analyzed in terms of the detection characteristics for standard calibration pulses and the changes of the output voltage according to the distance. The output increased linearly in accordance with the applied discharge amount. It was confirmed that the hexagon structure sensor had the highest sensitivity, because the winding cross-sectional area of the sensor was larger than others. In addition, as the distance from the defect increased, the output voltage of the sensors decreased by 7.32% on average. It was also confirmed that the attenuation rate according to the distance decreased as the input discharge amount increased. For the application of this new type sensor, PD electrode system was designed to simulate the void defect. Waveforms and PRPD patterns measured by the proposed PD sensors at DIV and 120% of DIV were the same as the results measured by MPD 600 based on IEC 60270. The proposed PD sensors can be installed on the inner wall of the transformer tank by coating its surfaces with a non-conductive material; therefore, it is possible to detect internal defects more effectively at a closer distance from the defect than the conventional sensors.
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Detection and Analysis of Discharge Pulses by Failure Mechanisms of the Separator inside Lithium-Ion Batteries
Seung-hyun Lim, Gyeong-yeol Lee, Nam-hoon Kim, Dong-eon Kim, Gyung-suk Kil
J Electr Electron Mater 2021;34(5):327-332.   Published online September 1, 2021
DOI: https://doi.org/10.4313/JKEM.2021.34.5.8
Lithium-ion batteries (LIBs) have become a main energy storage device in various applications, such as portable appliances, renewable energy facilities, and electric vehicles. However, the poor thermal stability of LIBs may cause explosion or fire. The thermal runaway is the result of a failure of the separator inside LIB. Damages like tearing, piercing, and collapsing of the separator were simulated in a mechanical, an electrical, and a thermal way, and small discharge pulses of a few mV were detected at the time of separator damages. From the experimental results, this paper provided a method that can identify the separator failure before thermal runaway in the aspect of a potential explosion and fire prevention measures.
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A Study of Hydraulic Turbine Design for The Discharge Water Energy Harvesting
Han Seok Cheong, Chung Hyeok Kim
J Electr Electron Mater 2021;34(1):78-83.   Published online January 1, 2021
DOI: https://doi.org/10.4313/JKEM.2021.34.1.14
We modeled the helical turbine and three modified helical turbines for the structure of the hydraulic turbine for discharge water energy harvesting. A structure that can reduce the load applied to the blade by placing a center plate is our basic concept. The shape was reduced to 1/5, fixed to a size of 240 mm in height and 247 mm in diameter, and modeled by changing the width and the angle of the hydraulic turbine blade. The pipe inner diameter of the simulation pipeline equipment is 309.5 mm, and the simulation section was 4 m in the entire section. The flow velocity was measured for two cases, 1.82 m/s and 2.51 m/s, with the parameters being the amount of power generation, hydraulic turbine’s torque, and hydraulic turbine’s rotation speed. The measurement results confirmed that the flow velocity at the center, which has no pipe surface resistance, has a great influence on the amount of power generation; therefore, the friction area of the turbine blade should be increased in the center area. In addition, if the center plate is placed on the helical turbine, durability can be improved as it reduces the stress on the blade.
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A Study on the Ozone Reduction of Plasma Devices by Catalyst Method
Sin Young Jeon, Dong Jun Kim, Jong Yeop Kim, Jin Gu Gwon, Young Min Jeon, Gye Ryung Do, Seong Eui Lee
J Electr Electron Mater 2021;34(1):56-62.   Published online January 1, 2021
DOI: https://doi.org/10.4313/JKEM.2021.34.1.10
In this study, we created a DBD plasma device and a MnO2 catalyst mesh filter for evaluating ozone reduction of devices via the catalyst method. The DBD plasma device was manufactured by applying MnO2 paste to soda lime glass via the screen-printing method. The MnO2 catalyst mesh filter was manufactured by mixing MnO2 powder with binder with a 10% difference in concentration from 10% to 50% and then applying it using the dip-coating method. Finally, we sintered a MnO2 catalyst mesh filter in an electric furnace. We evaluated the characteristics of ozone generation according to the MnO2 gas flow of DBD plasma devices, the opening ratio, and ozone reduction performance of the MnO2 catalyst filters. Ozone reduction performance was approximately 20.4% at MnO210 wt%, 37.8% at MnO2 30 wt% and 50% at MnO2 50 wt%.
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Comparative Analysis of PD Characteristics Under SF6, g3 and Dry Air Insulation
Han-sin Shin, Nam-hoon Kim, Sung-wook Kim, Gyung-suk Kil
J Electr Electron Mater 2020;33(6):490-494.   Published online November 1, 2020
DOI: https://doi.org/10.4313/JKEM.2021.33.6.11
Sulphur hexafluoride (SF6) is mostly used as a current-insulating medium in gas-insulated switchgears (GIS), owing to its excellent dielectric strength and arc-extinguishing performance. The global warming potential (GWP) of SF6, however, is 23,900 times that of CO2, and its life time in the atmosphere is 3,200 years. For these reasons, new eco-friendly gases to replace SF6 are required. In this study, the partial discharge (PD) characteristics of green gas for grid (g3) and dry air (N2/O2) were analyzed to compare with those of SF6. A PD electrode system was designed to simulate the protrusion defect in GISs and fabricated for experimentation. To compare the PD characteristics of each gas, the discharge inception voltage (DIV), discharge extinction voltage (DEV), discharge magnitude, discharge pulse number, and phase pattern were analyzed. Results from this study are expected to provide fundamental materials for the design of eco-friendly GISs.
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Electrical Characteristic of a Suspended Porcelain Insulator with a 154 kV Transmission Line
Seongho Jeon, In-hyuk Choi, Taeyong Kim, Youn-jung Lee, Ja-bin Koo, Ju-am Son, Junsin Yi
J Electr Electron Mater 2020;33(1):56-59.   Published online January 1, 2020
DOI: https://doi.org/10.4313/JKEM.2021.33.1.11
Porcelain insulators are typically exposed to surface discharge and lightning impulse in service. This study investigates the insulation characteristics of the external and internal discharges of a porcelain insulator with respect to its flashover for a 154 kV transmission line. The experiments are also conducted using a wet flashover test and an impulse test based on the external discharge and the internal penetration, to classify the flashover voltage-time curve of the porcelain insulator. When an impulse with a strength of 2,500 kV/μs was applied three times to 6.5 mm ceramic samples, electrical penetration of approximately 70% occurred. The impulse experiment confirmed that the electrical penetration inside the porcelain insulator coincided with the area where the electric field was concentrated. The wet flashover voltage test revealed that the flashover threshold voltage increases by approximately 7% after cleaning of the surface.
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Visco-Elastic Properties of Glass Fiber Manufactured by Slag Material
Ji-sun Lee, Sun-woog Kim, Yong-ho Ra, Youngjin Lee, Tae-young Lim, Jonghee Hwang, Dae-woo Jeon, Jin-ho Kim
J Electr Electron Mater 2019;32(6):477-482.   Published online November 1, 2019
This study investigated the influence of the viscoelastic property of slag when producing glass fiber, MFS631 with 60% of manganese slag, 30% of steel slag, and 10% of silica stone. To fabricate the MFS631 glass bulk, slag materials were placed in an alumina crucible, melted at 1,550℃ for 2 h, and then annealed at 600℃ for 2 h. It was found that glass is non-crystalline through X-ray diffraction analysis. MFS631 fiber was produced at speed in the range of 100~300 rpm at 1,150℃. The loss modulus (G″) and storage modulus (G′) of the produced glass fiber were evaluated at high temperatures. G′ and G″ of MFS631 were greater than 893℃, and the modulus value was 136,860 pa. This is similar to the results of a general E-glass fiber graph. Therefore, it was concluded that its spinnability is similar to that of E-glass fiber; therefore, it can be commercialized.
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Optimization of Alumina Tape Casting Process for Building Big Data
Dong Ha Kim, Shi Yeon Kim, Joo Sung Lee, Dong-hun Yeo, Hyo-soon Shin, Sang-ok Yoon
J Electr Electron Mater 2019;32(6):483-489.   Published online November 1, 2019
For machine learning techniques, a large amount of high-quality material property data should be accumulated. In this study, several data for an alumina tape casting process were produced with the variables of slurry viscosity, gap size, and coating speed. The alumina tapes were manufactured in the range of 1,000~6,000 cps for slurry viscosity, 300~1,000 ㎛ for gap size, and 0.5~2.0 m/min for coating speed. As a result, the lower the viscosity, coating speed, and gap size, the more pore-free tapes could be manufactured. The viscosity of the slurry limited the minimum thickness of the tape. Green sheets with high packing density were manufactured from the slurry of 100~6,000 cps slurry viscosity, coating speed of 0.5 m/min, and a 300~500 ㎛ gap size.
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Insulation Diagnosis of Gas-Insulated Switchgears by TEV Detection
Jeong-bae Kong, Gyung-suk Kil, Sung-wook Kim
J Electr Electron Mater 2019;32(4):307-312.   Published online July 1, 2019
Transient earth voltage (TEV) signals propagate on metal surfaces when partial discharge (PD) occurs due to the deterioration of insulation performance in the operation of gas-insulated switchgears (GIS). A TEV sensor has advantages of high sensitivity and convenient installation for detecting PD defects. However, the TEV sensor depends on imports in domestic and detailed studies have not been conducted. In this study, a sensor was designed and fabricated by the TEV principle and its response characteristics were evaluated for detecting PD defects, which were simulated as protrusion on conductor (POC), protrusion on enclosure (POE), and free moving particle (FMP) defects. Finally, the PD-induced TEV signals were measured and phase-resolved partial discharge (PRPD) patterns were analyzed to identify the type of defect.
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One-Plate Type Hybrid Plasma Discharge Device with Heating Element
Woo Jin Choi, Eun Hye Choi, Hyeong Seok Sung, Jin Gu Kwon, Seong Eui Lee
J Electr Electron Mater 2019;32(4):320-326.   Published online July 1, 2019
Recently, the application of atmospheric plasma technology in air filtration is increasing. Sterilization by an atmospheric plasma device is very effective. However, ozone gas, which is generated during atmospheric plasma formation, poses a hazard to human health. To reduce the ozone gas during plasma discharge, we fabricated a one-plate hybrid plasma discharge device with a heating element, which can decompose ozone gas effectively by a simple heating action. In this study, we evaluated the plasma discharge characteristics and ozone concentrations with various Ar flow rates and temperatures. With increasing Ar gas flow rate, the ozone concentration and spectrum intensity increased till an Ar gas flow rate of 60 sccm, and decreased thereafter. When discharged in high temperature, the ozone concentration and spectrum intensity decreased. Further, to evaluate the state of the treated surface under various plasma discharge and heating conditions, we measured the variation in the contact angles on the surface. Regardless of the temperature, the contact angle increased with increasing discharge voltage. However, the contact angle increased when discharged at high temperature.
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A Study on Degradation Pattern of GIS Using Clustering Methode
Deok Jin Lee
J Electr Electron Mater 2018;31(4):255-260.   Published online May 1, 2018
In recent years, increasing electricity use has led to considerable interest in green energy. In order to effectively supply, cut off, and operate an electric power system, many electric power facilities such as gas insulation switch (GIS), cable, and large substation facilities with higher densities are being developed to meet demand. However, because of the increased use of aging electric power facilities, safety problems are emerging. Electromagnetic wave and leakage current detection are mainly used as sensing methods to detect live-line partial discharges. Although electromagnetic sensors are excellent at providing an initial diagnosis and very reliable, it is difficult to precisely determine the fault point, while leakage current sensors require a connection to the ground line and are very vulnerable to line noise. The partial discharge characteristic in particular is accompanied by statistical irregularity, and it has been reported that proper statistical processing of data is very important. Therefore, in this paper, we present the results of analyzing Φ-q-n cluster distributions of partial discharge characteristics by using K-means clustering to develop an expert partial discharge diagnosis system generated in a GIS facility.
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Study on Surface Plasmon Electrode Using Metal Nano-Structure for Maximizing Sterilization of Dielectric Discharge
Hyun-chul Ki, Byeong-yun Oh
J Electr Electron Mater 2018;31(2):80-84.   Published online February 1, 2018
In this study, we investigated plasmon effects to maximize the sterilization of dielectric discharge. We predicted the effect using the finite difference time domain (FDTD) method as a function of electrode shape, size, and period. The structure of the electrode was designed with a thickness of 100 nm of silver nanoparticles on a glass substrate, and was varied according to the shape, size, and period of the electrode hole. Based on the results, it was confirmed that the effect of plasmons was independent of the shape of the electrode hole. It was thus confirmed that the plasmon effect depended only on the size and period of the holes. Further, the plasmon effect was affected by the size rather than period of the holes. Because the absorption of light by the metal varied according to the size of the hole, the plasmon effect generated by the absorption of light also varied. The best results were obtained when the radius and period of the electrode holes were 0.1 μm and 0.4 μm, respectively.
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Effect of Cathode Materials (MS2, M=Fe, Ni, Co) on Electrochemical Properties of Thermal Batteries
Jungmin Lee, Chae-nam Im, Hyun-ki Yoon, Hae-won Cheong
J Electr Electron Mater 2017;30(9):583-588.   Published online September 1, 2017
Thermal batteries are used in military power sources that require robustness and long storage life for applications in missiles and torpedoes. FeS2 powder is currently used as a cathode material because of its high specific energy density, environmental non-toxicity, and low cost. MS2 (M = Fe, Ni, Co) cathodes have been explored as novel candidates for thermal batteries in many studies; however, the discharge characteristics (1, 2, 3 plateau) of single cells in thermal batteries with different cathodes have not been elucidated in detail. In this study, we independently analyzed the discharge voltage and calculated the total polarizations of single cells using MS2 cathodes. Based on the results of this study, we propose NiS2 as a potential cathode material for use in thermal batteries.
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Wire Electric Discharge Machining Process of Various Crystalline Silicon Wafers
Hee-chan Moon, Sun-ho Choi, Sung-hee Park, Bo-yun Jang, Jun-soo Kim, Moon-hee Han
J Electr Electron Mater 2017;30(5):301-306.   Published online May 1, 2017
Wire electrical discharge machining (WEDM) process was evaluated to slice Silicon (Si) for various applications. Specifically, various Si workpieces with various resistances, such as single and multi crystalline Si bricks and wafers were used. As conventional slicing processes, such as slurry-on or diamond-on wire slicing, are based on mechanical abrasions between Si and abrasive, there is a limitation to decrease the wafer thickness as well as kerf-loss. Especially, when the wafer thickness is less than 150 μm, wafer breakage increases dramatically during the slicing process. Single crystalline P-type Si bricks and wafers were successively sliced with considerable slicing speed regardless of its growth direction. Also, typical defects, such as microcracks, craters, microholes, and debris, were introduced when Si was sliced by electrical discharge. Also, it was found that defect type is also dependent on resistance of Si. Consequently, this study confirmed the feasibility of slicing single crystalline Si by WEDM.
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Regular Paper : Analysis of Propagation Characteristics of Acoustic Signal in Insulation Oil
Min-young Yun, Kyoung-soo Park, Guoming Wang, Sun-jae Kim, Gyung-suk Kil
J Electr Electron Mater 2016;29(2):114-119.   Published online February 1, 2016
This paper dealt with the propagation characteristics of acoustic signal in insulation oil for the purpose of improving the reliability of AE (acoustic emission) method used for condition monitoring of oil-immersed transformers. A discharge source was placed in insulation oil and AE sensors (fc :140 kHz) were attached on the oil tank to study the changes of velocity and propagation path with the depth and distance. The average velocity was 1,436 m/s and the velocity decreased with the increase of depth from the oil surface to 430 mm. The propagation paths were classified into three sections by the shortest reflection path of the detected signal. The minimum distinguishable distance in each section was 70 mm. It was also verified that PD (partial discharge) with a magnitude over than 500 pC can be detected by the AE sensors.
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High Voltage and Discharge Engineering : Partial Discharge Characteristics of XLPE According to Electrode Shape and Void
Jong Yeol Shin, Guin Sik Kim, Jin Woong Hong
J Electr Electron Mater 2016;29(1):50-57.   Published online January 1, 2016
Transmission equipment is mainly used for the XLPE (cross-linked polyethylene) insulation cable for ultra high voltage power to minimize power loss. The experiment examined the partial discharge characteristics according to the insertion of the bar electrode and needle electrode into the XLPE specimen and the air voids. XLPE insulation cable manufactured by T. company and tungsten electrode material by K. company were used for specimens, by adhering conductive tape on the semi-conductive material of the lower electrode of XLPE specimen with the dimension of 16×40×30 [mm] was used as negative electrode. In order to investigate the PD with φ-q-n of XLPE specimen according to the electrode shape and the size of air voids. we examined the PD by varying the voltage after applying voltage of 3~20 kV on the electrode. Therefore, it was confirmed from the result of PD characteristics of specimen that the larger the air void than the gap between electrode (+) and electrode(-), the larger effect on the discharge when the bar electrode and needle electrode inserted into XLPE, and the closer the distance between the insulation and the needle electrode, the faster insulation breakdown.
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A Study on Partial Discharge Degradation Properties of PVC Cable due to NaCl
Sungill Lee
J Electr Electron Mater 2015;28(10):636-641.   Published online October 1, 2015
In this study, the partial discharge degradation properties for 2-core PVC cable(2 cores × 1.5 mm2 cross section, length of 10 cm, 20 cm, 30 cm) following immersion with the salt water that the 2%, 4%, 8% of NaCl is dissolved in 100 g of distilled water for 48 and 96 hours has been measured. The results of this study are as follows. When the degradation time in salt water of 2% NaCl is 48 hours, it found that the number of partial discharge increased as about 40 pps, 50 pps, 90 pps with increasing the length of cable to 10 cm, 20 cm, 30 cm. In case the concentration and degradation time is same, the inception and extinction voltage decreased with increasing the length of cable. When the degradation time in salt water is 96 hours and the length of cable is 20 cm, it found that the number of partial discharge decreased as 3,000 pps, 500 pps, 100 pps with increasing the concentration of NaCl to 2%, 4%, 8%.
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Insulation Materials : A Study on the Insulating Properties of Pressboard for High Voltage Transformer Applied the Mold of Eddy Current Loss
Wang Byuck Suh
J Electr Electron Mater 2015;28(8):508-512.   Published online August 1, 2015
Some insulating materials are tested and analyzed with variables to obtain the reliable pressboard which is located to core and coil of high voltage transformer. The high voltage transformer is used in electrical power system and operating reliability. Optimization possibility of pressboard shape including electrical insulation performance could be achieved by analysis simulation. Using insulating pressboard, which is made by mold applied eddy current loss, it could be measured the influences of moisture content for electrical properties. As a result, it is to contribute to improve the performance and ensure the reliability of the pressboard by investigating electrical strength according to the variation oil temperature. In addition pressboard thickness is important design factor to ensure electrical strength in high voltage transformer.
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High Voltage and Discharge Engineering : Identification of Defect Type by Analysis of a Single PD Pulse in Gas Insulated Structure
Hyang Eun Jo, Sun Jae Kim, Gi Woo Jeong, Gyung Suk Kil
J Electr Electron Mater 2015;28(5):320-325.   Published online May 1, 2015
This paper dealt with a defect identification algorithm which is based on single partial discharge (PD) pulse analysis in gas insulated structure. Four types of electrode systems such as a needle-plane, a plane-needle, a free particle and a crack inside spacer were fabricated to simulate defects in gas insulated switchgear (GIS). We measured single PD pulse by an oscilloscope with a sampling rate of 5 GS/s and a frequency bandwidth of 1 GHz. Data aquisition and signal processing were controlled by a LabVIEW program. Physical shapes of PD pulses were compared with kurtosis, skewness and time-based parameters as rising time, falling time and pulse-width. These parameters were analysed by an algorithm with a back propagation algorithm (BPA). By applying the algorithm, the identification rate was 97% for the needle-plane electrode, 96% for the plane-needle electrode, 91% for the free particle and 93% for the crack inside spacer. The results verified that the algorithm could identify the type of defects in GIS.
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The Relationship Between the Lag Time of the Discharge and the Characteristics of Mis-Discharge in an AC-PDP
Jae Hwa Shin, Gun Su Kim
J Electr Electron Mater 2015;28(3):149-153.   Published online March 1, 2015
As the temperature of the panel increases in AC-PDPs, the minimum driving voltage increases. Also, as the more the number of discharge increases in cells, the probability of the strong dark discharge in the reset period increases. In this study, we investigated the relationship between the lag time of the discharge and the mechanism of mis-discharges which are the black noise and bright noise. We conclude that the variation of time lag characterizes the properties of exo-electron emission from MgO. Thus, we found that the main factor of the mis-discharges is the rate of change of the electron emission ability from the MgO surface.
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Regular Paper : Temperature Dependence on the Partial Discharge of Epoxy Molding Ignition Coil According to Applied Voltage
Jong Yeol Shin, Jin Woong Hong
J Electr Electron Mater 2015;28(2):85-91.   Published online February 1, 2015
A gasoline engine automobile uses high voltage generation of the ignition coil, igniting and burning mixed fuel in the combustion chamber, which drives the engine. When the electronic control unit intermits a current supplied to the power transistor, counter electromotive force with a low voltage is generated by self induction action in the ignition primary coil and a high voltage is induced by mutual induction action with the primary ignition coil in the second ignition coil. The high voltage is supplied to the ignition plug in the combustion chamber, causing a spark, igniting the compressed mixed fuel. If a very small defect occurs inside the insulating material when a voltage is applied in said ignition coil, the performance of the insulation material will get worse and breakdown by a partial discharge of corona discharge. Thus, in this experiment, we are to contribute to improve the performance and ensure the reliability of the ignition coil by investigating partial discharge characteristics according to the change of voltage and temperature when a voltage is applied to the specimen of the epoxy molding ignition coil.
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The Partial Discharge Characteristics of the XLPE According to the Tilt of the Needle Electrode
Jong Yeol Shin, Byung Chul Ahn, Jin Woong Hong
J Electr Electron Mater 2015;28(1):28-33.   Published online January 1, 2015
The needle electrode is inserted into the cross-linked polyethylene(XLPE) which is the ultrahigh voltage cable for electric power. By changing the tilt of the needle electrode, we investigated how the void and the thickness of the insulating layer influence the partial discharge(PD) characteristics and the insulating breakdown. In order to investigate the PD characteristics, The XLPE cable was used to the specimens and the tungsten electrode was used with the needle electrode. And the inner semi-conductive layer material of XLPE cable was used with the negative electrode by bonding with the use of conduction tape. The size of the specimens was manufactured to be 16×40×30 [㎣]. We confirmed the effect on changing the PD characteristics according to the changing voltage and the tilt of the electrode after applying the voltage on the electrode from 1[kV] to 40[kV] at room temperature. In the PD characteristics, it was confirmed that the PD current of air void specimens with tilt was unstable more than that of no void specimens with tilt. It was also confirmed that the breakdown voltage was decreased because the effect of air void is more active than the change of the needle electrode tilt in the specimen with air void inside the insulation.
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A Study on Degradation Properties of Silicone Cable due to Partial Discharge
Sung Ill Lee
J Electr Electron Mater 2015;28(1):34-39.   Published online January 1, 2015
In this study, the characteristics of partial discharge was measured for the four core silicone cable (0.6/1.0 kV, 1.0 SQ × 4 C) with insulated part of 15 cm and conductor of 1cm. The following results have been confirmed as a result of this study. When the first line of cable is connected to the positive electrode and the second, third line of cable is connected to the negative electrode, it found that the inception voltage and extinction voltage decreased with increasing the line of negative electrode, and the partial discharge charge quantity(Q) increases, while the number of discharge occurrence has decreased. The inception voltage and extinction voltage of partial discharge has decreased with increasing the degradation rate in the 33%, 67%, 100%. Also, it confirmed that the partial discharge charge quantity(Q) and the number of discharge occurrence has decreased.
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Analysis on PD Pulse Distribution by Defects Depending on SF6 Pressure
Sun Jae Kim, Hyang Eun Jo, Gi Woo Jeong, Gyung Suk Kil, Sung Wook Kim
J Electr Electron Mater 2015;28(1):40-45.   Published online January 1, 2015
Electrode systems: a protrusion on conductor (POC), a protrusion on enclosure (POE), a crack in epoxy plate and a free particle (FP) were fabricated to simulate insulation defects in a gas insulated switchgear (GIS). SF6 gas was filled in the electrode systems by 3 bar and/or 5 bar, respectively. Partial discharge (PD) pulses were detected through a 50 Ω non-inductive resistor. A calibration test was carried out according to IEC 60270, and the sensitivity was 0.25 pC/mV. PD pulses were distributed in the phase of 50˚∼135˚ and over 95% of them existed in the phase of 55˚∼120˚ for the POC. PD pulses were distributed in the phase of 230˚~310˚ and over 90% of them existed in phase of 220˚∼300˚ for the POE. PD pulses occurred in the phase of 40˚∼60˚ and 220˚∼300˚ for the crack, and pulse counts were 25%higher in negative polarity than in positive polarity. PD pulses were distributed in every phase unlike to other three electrode systems and the peak magnitude was measured at 118˚ and 260˚ for the FP. As described above, PD pulses were observed in positive polarity for the POC, in negative one for the POE, in both one for the crack and the FP. In conclusion, it is expected that the identification rate of defect type can be improved by considering the polarity ratio of PD pulses on the PRPDA method.
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Regular Paper : A Study on Tracking Degradation Properties of Silicone Rubber due to Reinforcing Agent
Sung Ill Lee
J Electr Electron Mater 2014;27(12):841-846.   Published online December 1, 2014
It found that the maximum temperature of the arc discharge occurred on the Silicone rubber sample significantly decreased with increasing the reinforcing agent. It was confirmed that the current value decreased with increasing the aluminium trihyd rate(Al(OH)3) and the current value increased with reducing the primary resistance over time. Regarding these results, may be it is because the degradation due to the electro-conductive carbonization was improved and the properties of dielectric breakdown was reduced by the flame retardant reinforcing agent. It found that the electro-conductive carbonized road has not happened by increasing the flame retardant reinforcing agent. Regarding to the arc discharge, this study show that the arc arising near the lower electrode of sample has disappeared.
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