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"Charging"

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"Charging"

Development of a Smart Distribution Panel for Improving the Safety of Multi-Distributed EV Chargers
Beom-seung Yang, Kyung-seok Park, Yeong-min Kim
J Electr Electron Mater 2026;39(2):198-202.
Published online March 1, 2026
DOI: https://doi.org/10.4313/JEEM.2026.39.2.9
The recent rapid adoption of electric vehicles (EVs) is creating new load characteristics in the distribution system, and in particular, the widespread use of single-phase charging methods is exacerbating phase load imbalances, leading to voltage unbalance issues. Such voltage imbalances can undermine the stability of the distribution system and may cause side effects such as reduced power quality and shortened equipment lifespan. This study proposes a smart distribution panel system that can detect voltage imbalance issues caused by uneven electric vehicle charging loads in real time and actively compensate for them. The proposed system aims to contribute to the stability and power quality improvement of the distribution network by integrating a load balancing algorithm with inter-phase voltage monitoring functionality.
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A Study on the Optimal Generation Conditions of Micro-Droplet in Electrostatic Spray Indirect Charging Method
Jihee Lee, Sunghwan Kim, Haiyoung Jung
J Electr Electron Mater 2024;37(1):79-87.   Published online January 1, 2024
DOI: https://doi.org/10.4313/JKEM.2024.37.1.11
This paper is a study on the optimal microdroplet generation conditions in indirect charging electrostatic spraying. Unlike the direct charging method, which applies power to the nozzle, the indirect charging method applies power to the discharge electrode between the nozzle and the collection electrode. Therefore, an electrically simplified system can be obtained by minimizing the insulation part a stable spray pattern can be obtained with a wide spray angle, and a stable spray pattern can be obtained with a wide spray angle. To conduct the study, an indirect charging type electrostatic spray visualization system was constructed and the static characteristics of the microdroplets were analyzed through image processing of the spray shape of the microdroplets. The total number of microdroplets and the number of microdroplets per power consumption are confirmed according to the changes in the distance between the discharge electrode and the collection electrode, the flow rate, and the applied voltage, which affect the generation of microdroplets, and using this, the optimal generation conditions are derived and the corresponding microdroplet size distribution was analyzed. As a result of the experiment, it was confirmed that the optimal generation condition was at a flow rate of 15 to 20 mL/min and a voltage of -22.5 to -25 kV in terms of the number of microdroplets, and at a flow rate of 15 to 20 mL/min and a voltage of -20 kV in terms of energy consumption efficiency.
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Light Source and Application Technology : Regular Paper ;A Study on the Efficiency of a High Power Factor LED Driver Circuit
Dong Won Lee, Byung Cheul Kim
J Electr Electron Mater 2013;26(8):629-634.   Published online August 1, 2013
The rectified voltage supplied to LED lamp is used in load and then the surplus voltage can be produced in LED lighting. In this case, LED lighting is proposed that can recyclable the excess voltage to supply power to the controller.
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Regular Paper : The Design of a Power Supply for Planer Type of the Dielectric Barrier Discharge Ozone Reactor with Impedance Matching
Bong Seong Kim, Young Chul Shin, Kwang Cheol Ko
J Electr Electron Mater 2011;24(1):57-63.   Published online January 1, 2011
Dielectric Barrier Discharge (DBD) reactor with sinsodual AC type of power supply is very widely adopted for its compact size and effective discharging mechanism to generate high density of ozone radicals. However, at the aspect of design on power supply, its optimal switching conditions and topology is achieved by empirical test. Therefore, throughout this paper, it is proposed a design method of DBD power supply to guarantee a maximum ozone yield rate in accordance with DBD reactor modification and impedance variation when rapid gas discharging in the DBD reactor is proceeded.
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